Autoimmune Diseases (AD) | Natural Remedies & Treatments

Do you feel tired all the time? Are you struggling with losing weight no matter what you try to do? Or, are you losing unwanted weight? Do you feel bloated or constipated a lot of the time?  Do you have any allergies or digestive problems? Do you have skin rashes or dry skin? Do you have cold hands or feet?

Are you struggling with your blood sugar even when you eat right? Is your hair or skin thinning out too quickly? Are you taking thyroid medication? Do your joints or muscles ache? Do you have brain fog or problems with concentrating? Do you have any numbness or tingling in your hands or feet?

Do you have any food allergies or food sensitivity issues? Do you have any digestive-related issues? Do you have any ear infections or problems with your sinuses? Do you have frequent colds or frequent bouts with the flu? Do you have any problems sleeping or waking up feeling tired?

If you answered "yes" to 3 or more of the questions, you may want to consider getting a complete physical exam that includes a full hormone panel and antibody tests -- to make sure that you're not in the early stages of some type of autoimmune dysfunction.

If you've already has a complete physical and your doctor can't come up with a clear diagnosis, then, you may still be in the early stages of an autoimmune dysfunction.

I know that may sound a little far-fetched, but, autoimmune disorders are on the rise and have exploded over the past 7-10 years, affecting everyone from babies to children, teens, young adults, older adults, and especially women at a rate 5 times greater than men! (see the graph chart below)

If you haven't been diagnosed with an autoimmune disease, but, you have some of the above symptoms , then, you may have the initial stages of an autoimmune dysfunction or a leaky gut.

Also, if you haven't been diagnosed with an autoimmune disease, but, the medications that you've been taking for your diabetes or other disease haven't really helped; or, if you've taken a lot of antibiotics over the years; or, ifyou find yourself feeling worse with each passing day, then, at least, get a full complete physical exam.

Why? Because most people who wait, end up finding out when it's too late that the autoimmune dysfunction has destroyed part of the thyroid, pancreas, joints, skin tissue, nervous system, retina tissue,or some other part of the body. 

On the other hand, if you have been diagnosed with an autoimmune disorder and you're taking steroids or some kind of immune suppressant drug, you may want to reconsider, given what these drugs do to your thyroid, immune system and other organs/tissues!

Relying on drugs to control the symptoms and/or suppress your immune system only makes matters worse! In fact, suppressing your immune system can make you susceptible to frequent colds, allergies, asthma attacks, etc.; and, if it gets worse: infections, tuberculosis, pneumonia, and, even cancer or some other systemic disease.

But, the good news is that you can use our nutritional and wellness programs to rebalance your immune system naturally  to reduce the immune response and its over-reaction to attacking your own healthy cells!  

Author Sidebar: I had never heard of an autoimmune disease, until I was in the hospital. A couple days after I had come out of a diabetic coma, one of the nurses told me that because of my high blood sugar (of 1337), they thought that I might be a Type 1 diabetic. 

The nurse went on to explain that Type 1 diabetes is an autoimmune disease that attacks and causes damage to the pancreatic beta cells, which produce insulin. And, because of this lack of insulin, I would have to take insulin shots for the rest of my life!

That didn't really sit well with me, especially since I didn't like needles. :-) I'm really a chicken at heart :-) and, I surely didn't like the idea of sticking myself with needles several times a day!

Luckily for me, it turned out that I had Type 2 diabetes instead of Type 1. But, the doctors said that I would still need to take insulin (shots) for the rest of my life ...

Again, I was lucky (actually blessed) to be able to use my chemistry and engineering background and design a nutritional protocol and get off the insulin and other drugs within 4 months.  As it turned out, that was just the beginning of my journey that led me to become an author and researcher.

Concerning autoimmune diseases, during my research, I discovered that autoimmune diseases were on the increase, but, the medical community didn't understand why this was happening.

Autoimmune diseases such as lupus, celiac disease, sarcoidosis, and multiple sclerosis are not directly related to Type 2 diabetes pathology, but, under certain circumstances, people with an autoimmune disease may develop Type 2 diabetes and vice-versa, people with Type 2 diabetes may develop an autoimmune disease.

For example, some people with lupus, sarcoidosis or multiple sclerosis (MS) who were treated with Prednisone (a corticosteroid drug) may develop Type 2 diabetes after taking Prednisone for several months.

The reasons for this are not clearly understood by the medical community. However, it appears that drugs like Prednisone cause blood glucose levels to rise in some people.

So, it may be possible that if your blood glucose levels had been marginally high or if your body has a predisposition to Type 2 diabetes, then, the Prednisone may trigger a biochemical and hormonal imbalance that leads to Type 2 diabetes.

If you already have Type 2 diabetes, then, Prednisone can definitely cause your blood glucose to rise. This occurs because Prednisone stimulates glucose secretion by the liver as well as reducing glucose transport into adipose (fat) and muscle cells. The overall effect is a reduction in glucose clearance and an increase in insulin resistance.

That means that some people with Type 2 diabetes taking Prednisone are likely to see a significant increase in their blood glucose depending on the dose of steroid given.

The good news about Prednisone is that it is cleared from the system fairly rapidly and once you stop taking it, blood glucose levels return to their normal levels  fairly rapidly.

But, the issues with Prednisone don't explain the meteoric rise of autoimmune diseases over the past 25 years.

Autoimmune disease refers to a group of more than 100 serious, chronic illnesses including diseases of the nervous, gastrointestinal, and endocrine systems as well as the skin and other connective tissues, eyes, blood, and blood vessels.

Autoimmune diseases may manifest in many different places in the body, with many different diagnoses. Their common thread is that the immune system makes antibodies to its own tissues; and, then, the immune system turns around and attacks the very organs it was designed to protect.

Autoimmune diseases are the third most common category of disease in the United States after cancer and heart disease. Conservative estimates indicate that almost 75% of the persons with autoimmune diseases are women.

Autoimmune diseases are one of the leading causes for death in the United States, especially among women. However, their exact impact is unknown because the National Statistical Center did not include all the diseases in their list of possible causes for death; thus doctors do not list them on the death certificates.

At the same time, analysis of the data from the Center of Disease Control from 2012 shows that this group of diseases is in the top ten (Am J Public Health, Sep, 2012).

Autoimmune diseases affect at least 53 million Americans, according to the American Autoimmune Related Diseases Association (AARDA).

But, according to the National Health Institute, only 23.5 million of Americans suffer from autoimmune diseases. Still, this is 1.5 million more cases than cases of cardiovascular disease and 14.5 million more cases than cases of cancer. Since autoimmune disease is one of the major diseases that is misdiagnosed, the current estimates are much lower than the actuals.

This may not seem like a lot of people, but, if you look at the number of people struggling with autoimmune-type problems (e.g. allergies, asthma, food sensitivities, etc.), this can become a significant health problem. 

In fact, recently, autoimmune diseases have been increasing at an alarming rate. 

Coincidentally, allergies have also been increasing at an alarming rate. Coincidence? I don't think so.

Thirty years ago, 1 out of every 150 children had some kind of allergy. Today, almost 1 out of every 3 children have some kind of allergy!

Autoimmune diseases have exploded over the past 7-10 years, affecting everyone from babies to children, teens, young adults, older adults, and especially women at a rate 5 times greater than men! In addition, neurological diseases (some of which are autoimmune-related) are also on the rise.

Some of the more common autoimmune diseases associated with the thyroid, pancreas, joints, connective tissues, and gastrointestinal system include: Celiac diseaseCrohn's diseaseGraves' diseaseGuillain-Barré Syndrome (GBS)Hashimoto's ThyroiditisInflammatory bowel disease (IBD), LupusMultiple sclerosis (MS)PsoriasisRheumatic arthritis (RA)SarcoidosisSjögren’s syndromeType 1 diabetes, and Type 1.5 diabetes. 

Also, there are illnesses that have been increasing for years and are not autoimmune diseases but have autoimmune characteristics or are impacted by the gut. These illnesses and disorders include allergies, asthma, ADHD, constipation, diarrhea, depression, digestive issues, ear infections, frequent colds, food sensitivities, hay fever, hives, leaky gut, sinusitis, skin rashes, etc.

In addition, neurological and neurodegenerative diseases have also been increasing at an alarming rate. Some of the more common neurological and neurodegenerative diseases include Amyotrophic lateral sclerosis (ALS), Alzheimer's disease (AD), Autistic spectrum disorders (ASD), Guillain-Barré Syndrome (GBS), Multiple sclerosis (MS),  Parkinson's disease (PD) and complications from Rheumatoid Arthritis (RA).

Autoimmune Diseases Increasing: Silent Epidemic (Graph)


Although medical science doesn't know why autoimmune diseases are on the increase, all you have to do is take a look at how many toxins we are exposed to on a daily basis via the food, air and the water.

In addition, because more people are taking OTC drugs and prescription drugs, such as antibiotics, the combination of the chemicals from the food and the drugs weakens the immune system, making us more susceptible to infections and various diseases.

In addition, many vaccines such as the flu vaccine have been found to trigger autoimmune dysfunction, which develops into an autoimmune disease. Unfortunately, just like other drugs, vaccines weaken the immune system. More importantly, some vaccines have been found to cause major health issues, such as autism spectrum disorder (ASD) and neurodegenerative/neurological diseases/ illnesses such as multiple sclerosis, Guillain-Barré syndrome (GBS), epilepsy and paralysis. 

And, that, in turn, can set up the immune system to become over-taxed and confused; and, begin attacking your healthy cells -- leading to an autoimmune disorder or disease.

Every year, $100 billion are spent on treating autoimmune conditions. However, financing for autoimmune research is limited and programs for medical students include minimal information.

Women are five times more likely than men to develop an autoimmune disease. Also, autoimmune diseases tend to cluster in families and in individuals – a person with one autoimmune disease is more likely to get another. This indicates that common mechanisms are at work.

Studies of the prevalence of autoimmune disease in monozygotic (identical) twins show that genetic as well as environmental factors are necessary for the disease to develop. Also, infections and having another disease play a big role in the development of autoimmune diseases in most people. 

Autoimmune Diseases & Major Organs/Tissues Affected

There are primarily two major categories of autoimmune diseases: (1) organ-specific; and (2) systemic. However, both types of autoimmune diseases end up affecting the entire body and many different organs.

Some of the more common autoimmune diseases include the following:

  • Addison's disease, a disease that occurs when the adrenal glands fail to produce enough cortisol and aldosterone hormones. This disease leads to low blood pressure, tiredness, dizziness upon standing, nausea, and skin darkening.
  • Alopecia areataa common autoimmune skin disease, causing hair loss on the scalp, face and sometimes on other areas of the body; hair loss is also associated with other autoimmune diseases, e.g. Graves’ disease, Hashimoto’s disease, lupus, Sjogren’s syndrome, multiple sclerosis, rheumatoid arthritis, and psoriasis.
  • Celiac disease, an immune reaction to eating gluten, a protein found in wheat, barley, and rye; causes damage to the lining of the small intestine.
  • Crohn's disease, a chronic inflammatory disease of the intestines, especially the colon and ileum, associated with ulcers and fistulae.
  • Guillain-Barré Syndrome (GBS), attacks and causes damage to healthy nerve cells of the peripheral nervous system.
  • Graves' disease, an immune system disorder that affects the thyroid gland, resulting in the overproduction of thyroid hormones (hyperthyroidism). 
  • Hashimoto's Thyroiditis, an immune system disorder that causes inflammation of the thyroid gland, resulting in underproduction of thyroid hormone (hypothyroidism) and overproduction of the pituitary's TSH. 
  • Inflammatory bowel disease (IBD), a long-term inflammation of the gut and lining of the large intestine. There are two main types of IBD: (1) Crohn's disease is inflammation that affects areas of the gut; (2) Ulcerative Colitis (UC) is long-term inflammation of the gut.
  • Lupus, an inflammatory disease caused when the immune system attacks its own tissues.
  • Multiple sclerosis (MS), a disease in which the immune system eats away at the protective covering of nerves.
  • Psoriasis, a disorder thought to be triggered by stress, infections, or environmental factors. Psoriasis causes scales and dry, itchy patches on the skin.
  • Rheumatic arthritis (RA), a chronic inflammatory disorder affecting many joints, including those in the hands and feet. 
  • Sarcoidosis, an inflammatory disease in which granulomas, or clumps of inflammatory cells, form in the lungs and other organs, causing organ inflammation. 
  • Sjögren’s syndrome, an immune system disorder characterized by dry eyes and dry mouth.
  • Type 1 diabetes, often referred to as insulin-dependent diabetes, it a chronic disease in which the pancreas produces little or no insulin because of damage to the beta cells, resulting in uncontrolled blood sugar.
  • Type 1.5 diabetes, known as Latent Autoimmune Diabetes for Adults or LADA, gradually develops in people with Type 2 diabetes, usually after the excess use of diabetic medications take their toll and cause immune system dysfunction.
  • Vitiligo, a condition marked by loss of skin pigment or the loss of large batches of skin color.

Note: For a complete list of autoimmune diseases, refer to the Autoimmune Diseases website at

Organs/Tissues Affected by Autoimmune Diseases (Diagram)


Note: As you can see, autoimmune diseases affect almost every major organ/tissue in the human body.

There are many different symptoms associated with the major autoimmune diseases. These symptoms include the following:

  • Abdominal pain -- with blood or mucus in your stool, diarrhea or mouth ulcers
  • Allergies -- Many people with autoimmune disorders have numerous extreme food, chemical and environmental allergies and sensitivities.
  • Anxiety and/or Depression -- Mood and emotional changes, panic attacks and excessive irritability are common symptoms in most autoimmune conditions.
  • Blood Pressure Changes -- Most people have low blood pressure, though some have high blood pressure. Feelings or dizziness or vertigo, fainting, palpitations and fluctuations in heart rate.
  • Blood Sugar (High) -- This is usually a combination of problems with the thyroid, (leaky) gut, and inflammation. This is a difficult problem because most doctors will diagnose this person as diabetic and put them on a diabetic drug. Usually the drug doesn't work so the doctor has to put them on insulin.
  • Blood Sugar (Low) -- A sign of adrenal fatigue, common in many autoimmune disorders.
  • Brain fog -- This is a common problem -- memory loss, unable to focus.
  • Candida Yeast Infections -- Virtually all autoimmune diseases have this in common. Can manifest as digestive disturbances, sinus infections, vaginal yeast infections or thrush.
  • Concentrating or focusing difficulty
  • Discoloration in hands and feet
  • Digestive Problems -- Abdominal pain, bloating, tenderness, heartburn, cramps, constipation, diarrhea and excessive gas (looks like you're three months pregnant) reflect a condition known as "leaky gut syndrome", common with many autoimmune diseases.
  • Eyes or Mouth or Skin -- extremely dry
  • Fatigue (Extreme) -- Or, the kind of fatigue that is not alleviated by rest. Fatigue is a very common problem experienced universally by autoimmune disease sufferers.
  • Fevers (Low Grade) -- This is very common, with some people experiencing this every day.
  • Food sensitivity issue -- This is a very common problem with autoimmune diseases.
  • Hair loss unexplained -- hair loss (not male pattern baldness); or thinning, dry hair
  • Headaches (recurrent) -- Can manifest as migraines or severe headaches in some people.
  • Heart palpitations
  • Heat or cold intolerance
  • Infections Susceptibility -- Autoimmune disease symptoms include frequent colds, bladder infections, ear infections, sore throat, sinus problems and yeast infections are common, with a slower recovery time, for people with autoimmunity.
  • Inflammation - Inflammation is a part of every autoimmune disorder. The warning sign of pain, especially when chronic, is a sign that something needs immediate attention.
  • Insomnia -- Difficulty with sleeping; or, waking up feeling tired or lethargic is a common problem.
  • Lack of focus -- Inability to concentrate or focus
  • Leaky gut -- This is a common problem with most autoimmune diseases.
  • Lethargic -- Feeling sluggish, apathetic, drowsy; you find that you have to "push" yourself to get going.
  • Memory Problems -- Often known as "brain fog", is a common autoimmune disease symptom that appears in most conditions.
  • Miscarriage (Recurrent), Blood clots -- This is a very common symptom in many autoimmune diseases.
  • Muscle and Joint Pain -- Whether it be general pain, burning, aching and soreness in the muscles or joint pain or aches, this symptom can also be found in almost every autoimmune disease.
  • Muscle Weakness -- Feeling weak, particularly in the muscles, and loss of hand or arm or leg /thigh strength is a common symptom.
  • Numbness or tingling in the hands or feet
  • Pregnancy difficulties -- This is a very common problem with a lot of women. The immune system shifts to Th2 to protect the fetus, but, some women get "stuck" in Th2 after the pregnancy.
  • Premenstrual Syndrome -- Autoimmune disease symptoms often increase around the menstrual cycle. Extreme bloating, painful cramps, heavy bleeding and irregular cycle are common.
  • Shortness of breath
  • Skin rashes -- Recurrent rashes or hives, sun-sensitivity, a butterfly-shaped rash across your nose and cheeks; white patches on your skin or inside your mouth
  • Sleep Disturbances -- Difficulty falling asleep and/or frequent waking is experienced by almost everyone with an autoimmune disorder.
  • Sores in the nose or mouth
  • Swollen Glands -- These can be all over the body, but especially in the throat area, under the arms, and at the top of the legs in the groin area.
  • Thyroid Problems -- Many people have hypothyroidism, though some are hyperthyroid. Often this does not show up on a typical thyroid test. Can manifest as low body temperature and excessive hair loss.
  • Weight Gain -- Gaining weight and/or being unable to lose any weight, especially in the belly area.
  • Weight Loss -- Weight loss that can't be explained is often a typical sign of numerous autoimmune diseases.

As you can see, this is an extensive list of autoimmune disease symptoms and it may be hard to believe that these symptoms are in any way connected. You are probably not experiencing all of these signs or symptoms (at least we hope not), but if you are experiencing many of them, you're not alone.

Autoimmune diseases are also known to have flare-ups, when symptoms and disease activity get worse, and remissions, when symptoms get better or disappear completely. If you have a sudden onset of symptoms or worsening of severity in symptoms, it is important to contact a functional medicine immediately.

Diagnosis of Autoimmune Diseases

The following tests are used to diagnose an autoimmune disease:

Antinuclear antibody tests (ANA): a type of autoantibody test that looks for antinuclear antibodies, which attack the nuclei of cells in your body.

Autoantibody tests: any of several tests that look for specific antibodies to your own tissues.

Complete blood count (CBC): measures the numbers of red and white cells in your blood.

Erythrocyte sedimentation rate (ESR): this test indirectly measures how much inflammation is in your body.

C-Reactive Protein (CRP): tests for inflammation.

Depending on the disease and/or the symptoms, your doctor may order additional tests, such as a thyroid hormone panel, other antibody tests, inflammation markers, cytokine tests, Vitamin D levels, etc. 

Note: It is important to understand that there is no single test (with a result that is either positive or negative) that can confirm or deny a diagnosis of any autoimmune diseases. The doctor must take into account the patient’s entire medical history and all of the other signs and symptoms being experienced. For this reason, it is advisable to keep a journal of your symptoms being as detailed as possible. This is a great tool to help communicate clearly with your treating physician.

If your doctor refuses to order these tests, you can order the tests online from a reputable medical testing laboratory.

Key Point!: If the tests come back and there are no antibodies, you may still have a food sensitivity issue, a  leaky gut or the early stages of an autoimmune dysfunction! Start making the necessary nutritional changes now and do a nutritional gap analysis or get tested for a possible nutrient deficiency, especially Vitamins A, B12, and D.

Key Point: Unfortunately, the majority of alternative strategies for autoimmune diseases entail a shot-gun approach. Instead, we recommend a structured approach that focuses on finding the root cause(s) so that the problem can be fixed.

Thyroid-Diabetes-Inflammation-Autoimmune Connection: Why Diagnosing An Autoimmune Disease Is So Difficult

Given these various blood tests, you may be wondering: Why is it so difficult for my doctors to properly diagnose my condition?

Well, it's not the doctor's fault -- in medical school, most doctors are taught to focus on the symptoms and specific organs, and prescribe a specific medication to address that symptom.

For example, you may be experiencing problems like weight loss, fatigue, brain fog, unwanted weight loss, etc., but, your doctor latches onto the fact that you have high blood glucose levels.

So, in most cases, your doctor will prescribe a diabetic medication such as metformin (Glucophage); but, if you experience gastrointestinal issues, he/she will just give you a different diabetic drug or tell you to tolerate the metformin.

Later on, when the metformin stops working, and your blood glucose levels continue to rise, your doctor may prescribe insulin or a similar drug.

Why is this happening? Why is it so hard to figure out the real problem??

Well, not to make excuses for the doctor, but, solving blood glucose issues are not as straightforward as they used to be. Why? Partly, it's due to the increase in thyroid issues and autoimmune diseases.

As a result, there are several interdependencies associated with blood glucose regulation and thyroid regulation, which is depicted in the flow chart below.

Thyroid and Blood Glucose Regulation: Autoimmunity, Inflammation & Leaky Gut


As you can from the flow chart, you can't assume that you can simply fix a blood glucose problem by taking a diabetic drug to lower your blood glucose or a hormone drug to control your thyroid.

Sure, the diabetic drug will help to lower your blood glucose or control your thyroid, but, whatever is the root cause of your problem is still there! How do you know? Because, even though the drug may be working to lower your blood glucose or control your thyroid, in most cases, you still don't feel any better!

Eventually, the drugs will stop working and because the original problem was never solved, your doctor will probably want to put you on additional drugs, such as insulin along with stronger thyroid and immune-suppressant drugs.

Bottomline: Autoimmune, thyroid and blood glucose control problems are inter-related. As a result, trying to fix these types of problems with a bunch of drugs just isn't going to work. In fact, the drugs tend to make matters even worse over time!

The key to addressing these problems is to address the real root causes by eating the super foods listed in the flow chart and avoiding the trigger or "dead" foods. For more details about these foods, refer to the DTD AIP & Autoimmune Diseases Nutritional Program web page.

p.s. For those of you who may need to take a drug in the short term (as the author had to do by taking insulin), you can still use this program as part of a parallel strategy to help control the symptoms but more importantly to detox and repair your body's cells. By repairing your cells, your body will eventually not require its dependence on the drugs!

Autoimmune diseases affect people of all genders, races, and ages, but certain people have an increased risk of developing autoimmune diseases. The risk factors include the following:

Genetics. Research indicates that a family history of autoimmune disease is a strong risk factor. If you have family members who have autoimmune disorders, your chances of getting the same disorder or one that is closely related are higher.

Gender. Research also shows that women are at a higher risk of developing autoimmune disorders, with about 75 percent of the cases being attributed to women. It's not entirely clear why women are more susceptible to autoimmune diseases, but some researchers believe that hormonal factors may make them more vulnerable to autoimmune disorders. 

Age. Autoimmune disorders often occur in young adults and those in middle age. But each disease is different, and disorders such as rheumatoid arthritis are more common as people age.

Ethnicity. Native American, Latino, and African-Americans generally develop autoimmune disorders at a much higher rate than Caucasians.

Infection. If a genetically predisposed individual has suffered from specific viral or bacterial infections, there is a greater risk that they will also get an autoimmune disease in the future.

Exposure to drugs and vaccines. There is a lot of evidence that indicates that the use of prescription drugs (including vaccines/flu shots) has a detrimental effect on your body's cells and systems, especially your immune system. As a result, your immune system is weakened, making you more susceptible to illness and disease because of the toxins and other chemicals in the drugs, which includes vaccines. 

Please Note: Because of the damaging effect of vaccines, flu shots, allergy shots, etc. especially on babies, children and older adults, you should avoid these dangerous drugs; and, if possible, use natural methods to strengthen your immune system, e. g. super foods, raw juicing, detox, organic herbs, etc. 

Exposure to environmental agents. There is some evidence that exposure to certain medications, chemicals or toxins in your environment may increase your risk of developing autoimmune disorders. For example, research shows that exposure to some medications (e.g., procainamide or hydrolyzine) and certain metals (e.g. mercury, gold, or silver) may be associated with the development of autoimmune disorders. 

According to the medical community, they are uncertain of the root causes of autoimmune diseases. Really? 

Despite this lack of uncertainty, there appears to be quite a few common root causes and underlying factors that contribute to the development of autoimmune diseases.

As depicted in the diagram (above), the primary underlying root causes and co-factors of autoimmune diseases include, but, are not limited to: inflammation, oxidation, infections, viruses, food intolerances, heavy metals, toxicity, drugs, vaccines, damaged cells, leaky gut, molecular mimicry, organ dysfunction, and a weakened or unbalanced immune system.

Inflammation is the immune system's normal response for fighting invading pathogens (e.g. bacteria, viruses), but when the inflammation gets out of control and becomes chronic, this can lead to many diseases and health problems.

Oxidative stress creates excessive free radical molecules that cause damage to cells, tissues and organs that, in turn, compromise the immune system and other body systems. And, when free radicals cause cell/tissue damage, this triggers inflammation from the immune system, trying to repair the damage.

Infections of various types, such as candida overgrowth, contribute to autoimmune disorders. Eliminating these chronic infections is essential to successfully fighting and defeating an autoimmune disease.  Infections are fueled by inflammation and cause an increase in oxidation.

Infections such as Epstein-Barr virus (EBV) can trigger "molecular mimicry" where there is an immune response that results in self antigens (or autoantigens) that mimic a protein similar to another tissue cell such as the pancreatic beta cell. In this case, the B cell's antibodies end up attacking the pancreatic beta cells resulting in Type 1 diabetes. 

Nutrient deficiencies is one of the major problems with most systemic diseases. In fact, if you have an autoimmune disease, leaky gut, or any other systemic disease, there is almost a 100% certainty that you have a nutrient deficiency!

But, taking a pill or similar supplement will not get rid of your nutrient deficiency! You need whole food sources; or, at the minimum, whole food supplements.

The major nutrient deficiencies that most people overlook include: Vitamin A, Vitamin B12, specific amino acids, collagen, and Vitamin K2. And, the primary reason that most people have these deficiencies is because they believe that they have addressed these deficiencies by taking a pill that just doesn't work ...

As a result, most people overlook this significant issue and continue to look for answers elsewhere or they just give in to taking the drugs -- which only make the problem worse!

Other diseases, such as Type 2 diabetes, obesity or cancer, can weaken the immune system so severely that it makes the body susceptible to autoimmune dysfunction of some kind, usually affecting the organ or tissues that are the weakest.

Viruses of any kind can trigger an autoimmune response once an infection has settled in the body and damaged the immune system. Once you have a defective immune system, it will persist until the infection is eliminated.

Heavy metals, such as mercury and lead, contribute to autoimmune disorders due to the damage they cause to tissue cells, the immune system, and various organs.

Other toxins such as drugs, vaccines, flu shots, pesticides, environmental toxins, and chemicals from processed foods also contribute significantly to autoimmune diseases due to the damage they cause to tissue cells, the immune system, and various organs.

A leaky gut allows proteins (e.g. gluten), bacteria, undigested food particles, toxic waste  and other molecules to pass through the intestinal wall and into the bloodstream, wreaking havoc throughout the body, leading to food allergies and other negative immune responses.

Food intolerances or a poor diet of foods that contain gluten, flour, wheat, dairy (cow's milk, cheese), sugar, trans fats, animal meat (growth hormones, antibiotics), and other food chemicals can compromise and weaken the immune system.

Overuse of medications, both OTC and prescription medications (including antibiotics, flu shots, steroids, vaccines, Tylenol), can also compromise and weaken the immune system, setting the body up for other health problems.

Vaccines are a major issue based on recent studies, vaccine injuries and the ingredients. One of the reasons why vaccines may be a concern is because vaccines bypass two-thirds of the immune system. This creates a weakened and imbalanced immune system, which leads to major health problems. 

Other causes or triggers of autoimmune diseases include heredity/ genetics, nutrient deficiencies (e.g. Vitamin A, Omega-3s, iodine, Vitamin D), chronic stress/anxiety, trauma (i.e. car accident), major surgery, vaccines, flu shots,and pregnancy (hormone changes).

The medical treatment strategy for autoimmune diseases is drugs that suppress the immune system, which opens up the patient to tuberculosis and other infectious diseases!

As a result, a person stricken with an autoimmune disease needs a natural wellness treatment strategy that addresses these root causes in order to effectively fight and defeat the disease, or, at least, get the disease under control so that the person can live a higher quality of life.

Poor diet (cow's milk, gluten, processed meats), lack of exercise, lack of sleep, abuse of alcohol and use of tobacco can also weaken the immune system.

Normally the immune system's white blood cells help protect the body from harmful pathogens and their antigens. Examples of pathogens and antigens include bacteria, viruses, toxins, cancer cells, and blood or tissues from another person or species. The immune system produces antibodies that destroy these harmful substances.

In patients with an autoimmune disorder, the immune system can't tell the difference between healthy body tissue and certain pathogens and their antigens. The result is an immune response that destroys normal body tissues. This response is a hypersensitivity reaction similar to the response in allergic conditions.

Key Point: When your body is fighting an autoimmune disease, it is under constant attack due to various harmful biological processes such as excess oxidation, glycation, chronic inflammation and toxicity.

Your body is in a continual state of attempting repair and renewal of the cell damage caused by attacking its own cells and tissues. But, if nothing is done to interrupt the harmful biological processes that are causing the immune system to respond incorrectly, then, these processes eventually take their toll after many years.

In other words, the body is always trying to heal itself but the disease keeps on going. So even if you implanted cells from an identical twin (without the disease) into a person with the disease, the cells would be destroyed all over again because the disease process is likely still there. So to cure the disease, you need to address it's root causes.

Originally, it was thought that in Type 1 diabetes, that when all of the beta cells were killed off, the attack was gone, and a transplant would cure the disease. However, this doesn't seem to be the case. The disease process (for most patients) is still there. 

In addition, it was assumed that all the beta cells were destroyed, but, it appears that, in some cases, all of the beta cells are not destroyed.

It appears that some of the beta cells are either dormant or damaged, which is key because it means that these cells can either be "awakened" or repaired -- if the body is provided with the proper nutrients and resources, e.g. gymnema sylvestre, extra virgin coconut oil, arginine, broccoli, chromium, probiotics, Vitamin D, etc.

It also appears that certain foods and chemicals must be avoided that trigger a poor immune response, e.g. cow's milk, gluten, grains, etc. Refer to the Type 1 Diabetes web page for more details about how this disease develops at the cellular level; and, how to treat the disease with less insulin.

Conflict of Interest? Prescription drugs generate $455 billion while vaccines generate $36 billion for the pharmaceutical industry. Not only does the pharmaceutical industry want to protect this revenue, they want to grow it further. 

Vaccine Injuries and Issues

Prescription drugs are a major problem because the pharmaceutical companies design these drugs to mask the symptoms and not cure the disease. To make matters worse, these drugs cause side effects that cause more harm that either fuels the disease it's supposed to fix or it creates a new disease! These harmful prescription drugs include vaccines. 

In fact, today, more and more people are being negatively affected by all types of vaccines, including vaccinations, immunizations, allergy shots, flu shots, HPV (Human Papillomavirus) vaccine, Shingles vaccine, and MMR (Measles, Mumps, and Rubella) vaccine, just to name a few. 

Unfortunately, vaccines affect a lot of people, especially babies, children/teens, and older adults. These groups of people tend to have the weakest or least mature immune systems. 

Although medical science doesn't appear to know why there is an increase in vaccine issues and injuries, it appears that the dramatic increase is due to five primary reasons: (1) The increase in people with weakened immune systems (e.g. type 2 diabetics); (2) an increase in the toxins used within vaccines; (3) The under-reporting of vaccine injuries years ago; (4) The increase in the constant exposure to environmental toxins; and, (5) the overuse of prescription medications such as antibiotics and steroids.

Please keep in mind that a vaccine is a drug. And, since we are now aware of the dangers of OTC and prescription drugs, it should not be a total surprise that vaccines are causing as many health problems as other drugs.

Ideally, a vaccine is supposed to help your immune system. In reality, since the vaccine bypasses a major portion of the immune system (the innate system), it can cause major health problems such as paralysis, brain damage, blindness, deafness, pneumonia, MS, Type 1 diabetes, rheumatoid fever, thyroid issues, autoimmune dysfunction, etc.

In fact, the CDC website lists more than 25 major side effects (health problems) that can result from a vaccine, including flu and allergy shots!

You may be asking: Why haven't I heard about this? 

Well, think about it. Vaccines are a major part of the multi-billion pharmaceutical drug business. And, the pharmaceutical industry has done an excellent job suppressing and hiding this information about the danger of drugs, including vaccines.

Unfortunately, most of us don't find out about the dangerous side effects of a specific drug or vaccine until it happens to us or a loved one. 

Because of the continued increase in these drug and vaccine issues, we strongly recommend that you do your own homework before you give in and get a vaccine, flu shot, allergy shot or similar shot. Don't make the mistake and assume that it won't affect you!

FYI: In most cases, you can use non-drug natural alternatives to strengthen or rebalance your immune system instead of relying on dangerous drugs or vaccines.  Examples include super foods, periodic detox, raw juicing, herbal therapy (e.g. turmeric, garlic), sauna/salt baths, essential oils, etc. For more information, refer to our How to Strengthen Immune System web page.

Please Note: If your health has already been damaged by a specific prescription drug or vaccine, the most important thing that you can do is to educate yourself and perform a periodic detox to safely remove the toxins from your cells and other systems in your body.

In addition, it is imperative that you change your diet [Ref: DTD AIP Nutritional Program] and begin eating healthier foods and, more importantly, avoid many of the foods that can trigger an autoimmune response, e.g. cow's milk, cheese, other dairy, wheat, grains, corn, vegetable oils, canola oil, cosmetics, etc.

FYI: If you take a look at any of the disease pathogenesis diagrams on this web page, you'll see that drugs and vaccines are always listed as potential triggers or root causes of that particular disease. And, even if you don't believe that drugs and vaccines are a problem, you should still cleanse and detox to remove any accumulated toxins in your cells and tissues.

Decision: Should I Get Vaccinated?

Whether to get vaccinated or not is a very complex issue that you should not take lightly. 

There are many good reasons to get vaccinated: safety, life-saving, financially beneficial, etc.

But, there are just as many good reasons to not get vaccinated: adverse side effects, harmful ingredients, lack of testing, etc.

Depending on what website you visit, they are either pro-vaccine or anti-vaccine and present their own arguments without considering the other's position.  Unfortunately, this type of close-mindedness and bias can be very dangerous. 

CRITICAL POINT!: But, the key point that most of these websites fail to tell you is that regardless of your decision, you can reduce the risk of harming your health whether you get vaccinated or not. 

How to Reduce Your Risk

Instead of trying to convince you one way or the other, we strongly encourage and recommend that you do as much research as possible before you make your decision. 

Regardless of your decision there is a certain amount of risk that you have to accept. 

However, you can reduce that risk by implementing several key nutritional and lifestyle wellness strategies to reduce the risk of harming your health regardless of whether you did or did not get vaccinated. 

For more details, these strategies are discussed in our autoimmune disease workshops, health coaching consultations and our Autoimmune Diseases ebook

Although these autoimmune diseases and Type 2 diabetes are not connected directly, there is a common link: cellular inflammation.

In fact, as depicted in the following diagram, cellular inflammation plays a major  role in many systemic diseases, including autoimmune diseases.

How Inflammation Leads to Autoimmune Disease and Other Diseases

Cellular inflammation that develops and continues to progress over a period of years can wreak havoc and cause cell/tissue damage throughout the body.

This, in turn, causes the immune system to overreact and become imbalanced and Th1 or Th2 dominant. This imbalance and Th1/Th2 dominance can further fuel inflammation and cell/tissue damage, eventually triggering an autoimmune disorder or disease, such as lupus, MS, RA or Hashimoto's Thyroiditis. 

There are many risk factors and other variables that can contribute to chronic inflammation, including poor health, poor diet, nutrient deficiencies, hormonal imbalances, bacteria, viruses, infections, toxins, drugs, vaccines,environment, etc.

Key Point: It is very important to understand how the immune systems works and fails in order to design an effective nutritional program and wellness program that will actually work.

Traditional medicine relies on suppressing the immune system with drugs to combat most autoimmune diseases because the assumption is that the immune system is "too active".

Actually, it's not that the immune system is "too active" -- it's that the immune system is "out of balance" and fueled by cell inflammation!

So, instead of suppressing the immune system, we should "rebalance" the immune system and reduce cell inflammation with superior nutrition and the avoidance of trigger foods (as defined with our DTD Autoimmune Protocol (AIP) Nutritional Program.

By the way, when you suppress the immune system with drugs, you expose the body to various bacteria, viruses, other pathogens and diseases such as pneumonia, tuberculosis, and cancer along with more colds, influenza (flu), and infections!

If we take a deeper look at inflammation in the body at the cellular level, you can see (in the diagram below how acute inflammation is triggered and fueled, leading to long-term chronic inflammation.

And, chronic inflammation can lead to health problems and chronic diseases such as asthma, ulcerative colitis, Crohn's disease, heart disease, cancer, diabetes, obesity, arthritis, other autoimmune diseases, etc.

Immune cells known as neutrophils are usually the first immune cells that are recruited to the site of the injury to kill any bacteria and prevent infection. If there are macrophages at the local site, they begin eating up the dead bacteria and the dead neutrophils, since neutrophils have a short life span of a few hours.

In the meantime, monocytes are recruited via the bloodstream and transform into macrophages to continue cleaning up the injury site. If the bacteria is resistant, the macrophages present remnants of the bacteria to the dendritic cells (DCs), who are the bridge between the innate immune system and adaptive immune system. The macrophages send out inflammatory chemical signals (cytokines) to recruit more macrophages to participate in the fight against the bacteria.

The dendritic cells use the bacteria remnants to notify the T cells, which produce T Helper cells -- either Th1 or Th2 to help with the attack. 

Whether it's Th1 cells or Th2 cells is determined by the invading pathogen.

For example, if the pathogen is a virus, this triggers the Th1 system, which includes Th1 cells, cytotoxic T cells and Natural Killer (NK) cells.

The dendritic cells also notify the cytotoxic killer T cells (Tc or CTL), which attack and kill infected cells directly.

For another example, if the pathogen is normal bacteria, parasites, toxins, or allergens, this triggers the Th2 system. Its weapons include neutrophils, basophils, eosinophils, mast cells, and B cells. 

When the T Helper cells notify the B cells, the B cells transform into plasma cells which produce antibodies to counter the bacteria and create B memory cells to "remember" this bacteria just in case it returns.

Once the inflammation subsides, the attack is subdued by the T suppressor cells or Tregs.

Now that the inflammation has subsided, some of the macrophages convert into M2 macrophages, which send out anti-inflammatory signals to promote the healing of the injured tissue.

The natural killers (NK) cells kill any infected cells to help in the promotion of the healing process. This eventually leads to the final two stages of wound healing, namely, proliferation and remodeling. For more details about the stages of wound healing, refer to the Cell Repair & Healing web page.

However, if the inflammation does not subside, then, the immune cells continue to attack, trying to repair the tissue and end up recruiting even more immune cells. 

If the attack (immune response) gets out of control and the immune system is over-stimulated, this can lead to chronic inflammation and a self-perpetuating imbalance. This imbalance is known as Th1–Th2 polarization. This causes a vicious cycle, increasing both the imbalance and the intensity of the attack.

And, if the Th1-Th2 polarization/attack and chronic inflammation should continue for years, this imbalanced attack can manifest itself as an autoimmune disease such as lupus, multiple sclerosis, or Hashimotos's Thyroiditis, a form of hypothyroidism.

Once this happens, it becomes critical to help rebalance the immune system and reduce it's aggressive attacking of  the body's healthy cells. It also becomes critical to get rid of the infection and invading bacteria that started all of this.

At this point, a sound nutritional program that is designed to address these issues becomes key to reversing and defeating this disease.

Chronic  Inflammation Pathogenesis: Cell Level Diagram


Of course, chronic inflammation affects more organs and causes more diseases than what is depicted in the Inflammation Pathogenesis: Cell Level diagram (above).

In fact, as depicted in the diagram below, inflammation can impact almost every system and every organ and major tissue in the human body!

And, because of that and the ongoing inflammation, along with the overall weakening of the immune system, this actually sets the stage  for a person with an autoimmune disease to acquire another autoimmune disease!

Below are some of the key systems, organs and tissues that are negatively affected by chronic inflammation and autoimmunity.


Interesting Observation: If you look closely, you'll notice that the immune system, liver/GI tract and adipose tissue (fat cells) are not only affected by inflammation, but, they also cause inflammation!

Note: If it seems like we are overly focused on inflammation, it's because it's important to understand why disease progresses and why drugs don't help, because drugs don't have the ability stop inflammation. In fact, most drugs (including vaccines, flu shots and allergy shots) actually cause inflammation!

Inflammation Risk Factors

Interestingly, many of the risk factors associated with inflammation are the same risk factors associated with many of the top diseases. There is obviously a connection.

Why is this important? Because we know that drugs don't contain anti-inflammatory properties. In fact, most drugs (including vaccines, flu shots and allergy shots) are inflammatory! Which means that most drugs tend to fuel disease instead of stop the disease!

So, what contains anti-inflammatory properties? Super foods!


Interestingly, some of the foods that should be avoided by people with Type 2 diabetes should be avoided by people with an autoimmune disease because these foods fuel inflammation in the cells.

Some of these foods include vegetable oils, canola oil, fried foods, processed foods, margarines (trans fats), cow's milk, rice, corn, soy, potatoes, potato chips, sugar, HFCS, artificial sweeteners (aspartame, Splenda), grains, bread, wheat, flour, animal meat, and other foods that contain gluten, trans fats, growth hormones, antibiotics, GMOs, and other chemicals.

In addition, some of the foods that are good for people with Type 2 diabetes are also good for people with an autoimmune disease because these foods have anti-inflammatory properties, e.g. leafy green vegetables, raw juices,garlic, extra virgin coconut oil, raw organic nuts, free range chicken, wild salmon.

Pain and Inflammation

There's nothing worse than being in pain all the time -- it affects how you feel, what you want to do, your drive and motivation, going to work, socializing with others, etc. When you're in pain, you can't think straight . Sometimes we don't even want to eat -- it can be very debilitating.

This is why pain medications are the Number 1 class of drugs sold in the United States. But, pain meds are also at the root cause of a lot of insomnia, depression, anger, anti-socialism, missing work, stress, etc.

In many cases, it's very difficult to try to figure out the root cause of the pain.

Suggestion: Begin keeping good records of your daily activities, meal plan, medications, etc. And, if you're diabetic, it's critical that you get your blood sugar back in the normal range.

No matter your age, constant body ache can affect anyone and be a harrowing experience. The most common body aches are headache, neck and back pain, muscle pain, joint pain; and also diabetic neuropathic pain.

In general, there are primarily two types of physical pain: a general aching pain or a sharp, piercing pain. Knowing which one you have will go a long way in a proper diagnosis.

Certain diseases can lead to pain issues, such as:


This is a disorder with symptoms of chronic widespread body pain, fatigue, and sleep disturbances that negatively affect the quality of life.

The other symptoms of fibromyalgia* are usually:

  • Painful tender points
  • Morning stiffness
  • Depression
  • Anxiety
  • Cognitive difficulties
  • Irritable bowel syndrome (IBS)
  • Migraine
  • Temporomandibular disorder (jaw and surrounding facial muscle problems)
  • Painful bladder syndrome
  • Inflammation of the prostate gland and chronic pelvic pain

Mood and anxiety disorders generally occur with fibromyalgia, since they have common pathophysiologic abnormalities.

Medical Treatment: To relieve body pain and help you cope with the symptoms your doctor may prescribe antidepressants or muscle relaxants to reduce pain perception in your brain.

But the first line of treatment involves physical therapy, exercise, eating anti-inflammatory foods/herbs, stress-relief methods such as massage and relaxation techniques like yoga for stress relief and cognitive-behavioral therapy.

In some cases, non-pharmacologic treatment has shown to be more useful than medications alone. For example, studies have shown that yoga, acupuncture and Traditional Chinese Medicine (TCM), are valid therapeutic methods for Fibromyalgia.

Chronic Fatigue Syndrome (CFS)

The symptoms are almost same as in fibromyalgia, however when the feeling of extreme fatigue doesn’t improve with rest it is possibly a case of Chronic Fatigue Syndrome*.

Refer to the Chronic and Adrenal Fatigue web page for more details.

Lyme Disease

This disease is caused by bacteria called Borrelia burgdorferi that spreads through the bite of the blacklegged tick. Symptoms are:

  • Marked fatigue
  • Severe headache
  • Widespread musculoskeletal pain
  • Tender points in characteristic locations
  • Pain and stiffness in many joints
  • Impairment of sensation
  • Difficulty with concentration
  • Memory loss
  • Sleep disturbances

Medical Treatment: This disease is usually treated with antibiotics, but, it can cause complications such as long-term joint inflammation (Lyme arthritis) and heart rhythm problems, as well as brain and nervous system problems.

So, apart from the above symptoms (which usually show up later) check with your doctor if you have a large, red, expanding rash that may look like a bull’s eye, or you have been bitten by a tick when hiking or walking in dense or bushy areas.

High Stress

Despite the doubts of Western Medicine, stress is very real and can also be responsible for constant body ache.  

For example, stress causes the release of cortisol (the stress hormone), which can affect other parts of your body. For example cortisol causes your blood vessels to constrict, which may lead to high blood pressure.

Stress generally refers to a state of mind or mental tension that is linked to anxiety, irritability, insecurity, mental disorders like depression or insomnia and physical ones like migraine, cardiovascular ailments and sexual dysfunction.

Stress occurs in the presence of an external stimulus called the stressor. Usually factors like work pressure, personal commitments, relationships, divorce, a death in the family, losing a promotion, getting a promotion, moving, and working environment act as common stressors in daily life.

Our body can handle stress with a mechanism called fight-or-flight response, where certain hormones are released to combat stress. But when the levels of these hormones are increased, several organs and systems of the body may get affected.

Increased stress levels commonly affects the immune system, musculoskeletal system, circulatory system and digestive system. It is also linked to heart disease, diabetes and gastrointestinal disorders.

There’s a causal link between stress and physiological ailment. However the fact that many individuals remain healthy after stressful events suggests that susceptibility varies from person to person based on genetic, environmental and psychological factors.

Some interesting ways to handle stress include spirituality, laughter yoga, natural remedies, healthy food, wholefood supplementation, and water.

Some common symptoms associated with high stress are:

  • Headache
  • Muscle pain
  • Chest pain
  • Fatigue
  • Sleep problems
  • Stomach upsets

But, if you’re not sure whether stress is causing the symptoms or if you’ve taken steps to control your stress, but your symptoms continue, Mayo Clinic experts suggest you see your doctor to check for other potential causes. 

Vitamin D Deficiency

Low levels of Vitamin D (or another vitamin such as Vitamin A or C) is known as a vitamin deficiency. This is one of the reasons for constant and chronic body pain. Known to help in the absorption of calcium, Vitamin D helps keep your bones strong, preventing fractures.

According to a study published in the American Journal of Clinical Nutrition, low levels of Vitamin D allow your body to absorb only about 10 to 15 percent of the calcium you eat. And since calcium is required to build stronger and healthy bones Vitamin D deficiency indirectly results in weak, soft and achy bones.

Some of the common symptoms of low levels of Vitamin D are:

  • Constant fatigue
  • Achy bones
  • Weakness

Treatment: Once diagnosed it is easy to treat this condition with Vitamin D supplements and a well balanced diet. Prolonged deficiency of Vitamin D and calcium can also lead to osteoporosis.

Other Vitamin/Mineral Deficiencies

Besides Vitamin D, there are other vitamin, mineral and nutrient deficiencies that can contribute to pain-related issues, including:

  • Vitamin A (retinol)
  • Vitamin B12 (cobalamin)
  • Vitamin C
  • Glutathione (body's master antioxidant)
  • Iron
  • Magnesium 

Anemia: Lack of Iron in the Blood

Anemia occurs due to the lack of iron in your blood. This lack leads to lower amounts of oxygen and nutrients carried to various parts of the body, making you feel tired and achy all over. Other symptoms of this condition include:

  • Muscle aches
  • Pale skin and nails
  • Excessive bleeding during menstruation
  • Brittle nails and hair
  • Dizziness
  • Moodiness and irritability

Treatment: The treatment of iron deficiency anemia involves iron replacement therapies including nutrition (iron-rich foods) and supplementation. 

Multiple Sclerosis

This is a condition that affects the spinal cord and brain. Since the nerves and the brain are involved, people with multiple sclerosis often suffer from constant body aches. Apart from that the other common symptoms are:

  • Weakness
  • Tingling sensation
  • Numbness
  • Blurred vision
  • Muscle stiffness
  • Urinary problems
  • Improper cognition

Medical Treatment: In most cases, timely treatment can help delay the progression of the disease; this includes having medication, deep brain stimulation and treating conditions like urinary problems that may arise due to the condition.


This is a form of arthritis where the cartilage between two bones erodes, causing the bones to rub against each other, leading to pain and discomfort. Due to the nature of this disease you might suffer from constant body ache that sometimes can be debilitating.

Apart from that other symptoms of this disease are:

  • Soreness and stiffness of joints
  • Pain in the hips, back and hands that usually reduces after movement
  • Stiffness in the morning and on excessive activity.

Nerve Damage

This is a condition where your nerves (usually in a particular region) are damaged due to disease or injury. This condition causes the nerves to malfunction leading to pain all over the body, especially in the region that is hurt.

Some of the common symptoms associated with this condition are:

  • Muscle pain
  • Tingling
  • Muscle spasms
  • Lack of coordination

Pain in Specific Locations, e.g. Lower Back, Legs

For people with pain in specific locations of the body, check with your doctor to make sure that that area of the body is not injured, e.g. stress fracture, inflamed joint, tendonitis, shin splints, broken bone, etc.

For sharp pain in the lower back due to a pinched (sciatica) nerve, chiropractic adjustments where the back is realigned, have proven to be very successful. However, if you have never been to see a chiropractor, do your own research and get several referrals from friends and relatives.

Other Diseases and Ailments

Other chronic diseases, disorders or ailments that can directly or indirectly be the cause of your pain include:

  • Lupus*
  • Rheumatoid arthritis*
  • Celiac disease*
  • Thyroid issues, e.g. hypothyroidism*
  • Viral gastroenteritis
  • Influenza (Flu)
  • Tuberculosis 
  • Autoimmune disorder*
  • Injuries from accidents, whether minor or major
  • Vitamin/mineral deficiencies*
  • Type 2 Diabetes (causes vitamin/mineral deficiencies)
  • Deep Vein Thrombosis (DVT)
  • Restless leg syndrome (RLS)
  • Varicose veins
  • Peripheral artery disease (PAD)
  • Spine problems

Aging can also cause chronic body aches. Older adults are more likely to have long-term medical problems, such as diabetes or arthritis, which can lead to ongoing pain. For reasons unknown, sometimes not having any illness may also cause constant body aches in older adults.

Other possibilities include infective or inflammatory conditions, and degenerative conditions of the spine and hip in elderly, and severe nutrient deficiencies. 

Key Point: Given the many possible causes of pain, it is imperative that you clearly define the type of pain to your doctor; and, make sure that you get a complete physical and obtain all of the necessary blood/hormone tests to identify a correct diagnosis.

*Note: For more details about some of these diseases or disorders, refer to the Autoimmune Diseases and Natural Remedies ebook.

Herbs for Pain Relief

Some of the herbs that can be used for pain relief include the following: 

Ginger, Turmeric, & Holy Basil – This set of herbs forms a sort of trinity in Ayurvedic medicine. All of them have anti-inflammatory properties. Turmeric (a curry ingredient) contains curcumins which ease inflammatory conditions like rheumatoid arthritis and psoriasis.

“Each herb has its own scientific database of evidence,” says James Dillard, MD, author of The Chronic Pain Solution.

Devil’s Claw – This herb is actually great for treating numerous health conditions, among them are liver problems and heart burn. It also has anti-inflammatory effects and can reduce pain from arthritis, headaches, and low back discomfort. The University of Maryland Medical Center has published several studies that had great success treating Osteoarthritis with Devil’s Claw.

Wintergreen Essential Oil – Also among natural pain relievers, Wintergreen Essential Oil contains 85-99% of methyl salicylate, the same component of aspirin.

White Willow Bark – The active ingredient in white willow is salicin, which the body converts into salicylic acid. This tree’s covering lowers the body’s levels of prostaglandins, hormone-like compounds that can cause aches, pain, and inflammation.

What’s more, white willow bark doesn’t upset the stomach or cause internal bleeding like many over-the-counter aspirins. Turn to this herb for relief from menstrual cramps, muscle pains, arthritis, or after knee or hip surgery as it promotes blood flow and reduces swelling.

Capsaicin – Found in hot chile peppers, this natural remedy does wonders for pain. Capsaicin, the active pain-reducing ingredient, temporarily desensitizes nerve receptors called C-fibers which cause the pain response.

Capsaicin also diminishes soreness for 3 to 5 weeks while the C-fibers regain sensation. A single 60-min application in patients with neuropathic pain produced effective pain relief for up to 12 weeks.

Patients at the New England Center for Headache decreased their migraine and cluster headache intensity by applying capsaicin cream to their nasal passages.

Gamma-Linolenic Acid (GLA) – GLA can be found in numerous seed oils such as evening primrose oil. According to University of Maryland, people who consume these essential fatty acids are able to reduce nerve pain associated with diabetic conditions.

Cherries – Due to the presence of compounds called anthocyanins —the same phytonutrients that give cherries their rich ruby hue – you can count on cherries to tamp down pain.

They block inflammation and they inhibit pain enzymes, just like aspirin, naproxen, and other nonsteroidal anti-inflammatories.

Cherries are said to have the highest anti-inflammatory content of any food, making them great for remedying issues such as arthritis.

Aquamin – Derived from red seaweed, aquamin is a powerful pain reducer, too. In a study published in Nutrition Journal, of 70 volunteers, Aquamin users reduced arthritis pain by 20% in a month and had less stiffness than patients taking a placebo. Helping to diminish inflammation and helps to build bone, aquamin is rich in both calcium and magnesium, too.

Peppermint – Peppermint is most often used as a natural remedy for toothaches, discomfort from bloating and gas, joint conditions, skin irritations, headaches and muscle pain.

Boswellia – This herb is sourced from the frankincense tree. Its resin is used to thwart chemical reactions that cause inflammation, and thus pain. Ayurvedic scientists have used Boswellia for centuries to treat arthritic conditions, as well as inflammatory bowel disease.

Bromelain – This natural pain-reducer comes from the enzymes present in pineapple stems. Research shows that it reduces levels of prostaglandins, which are hormones that induce inflammation. Bromelain may benefit people with arthritis and conditions marked by musculoskeletal tension (like TMJ syndrome), in addition to those suffering trauma-related inflammation. The enzyme also promotes healing in muscles and connective tissues.

Cranberry Juice – Having a bout of ulceritis? Ulcers usually result from a pathogen called H. pylori which attacks the lining of the stomach and small intestines, but cranberry juice can kill it – reducing pain. Instead of turning to antibiotics, destroy the bacteria causing your ulcers and urinary tract infections with cranberries.
There are hundreds more natural pain killers, but adding these to your home first aid cabinet is a great start.

When healthy cells are attacked by cells from the immune system, it can manifest into one of many autoimmune disorders or diseases.

Initially, usually due to a combination of one or more triggers (e.g. pathogen, infection, food compound, toxin, stress, etc.), the immune cells of the innate immune system respond.

For example, let's say it's a bacteria that is invading the body. Cells of the innate immune system (e.g. macrophages, dendritic cells (DCs), natural killer (NK) cells) attack and destroy the bacteria.

If more help is required, the macrophages will send out signals (cytokines) to recruit more immune cells, such as neutrophils, basophils, eosinophils, etc.

If the bacteria is too strong, the macrophages recruit B cells and various T Helper cells, such as Th1, Th2, and Th17 to engage in the attack.  

The T cells and B cells coordinate their attack to provide a balanced immune response between the Th1 system of immune cells and Th2 system of immune cells; and, also between the Th17 and Tregs.

But, if the organ's cells are not repaired or if the invading bacteria is not destroyed, this leads to a state of chronic inflammation, which causes more cell damage and triggers the recruitment of more immune cells.

But, as depicted in the diagram below, if the immune system response gets out of control (or out of balance), various immune cells such as Th1 and Th17 cells (or Th2 and B cells) can over-dominate and infiltrate the injured organ/tissue and kill the organ/tissue's cells.

This causes the organ/tissue's cells  to malfunction or die; and, this can lead to an autoimmune disorder or disease such as hypothyroidism or Hashimoto's Thyroiditis.

In a different scenario, if the B immune cells produce antibodies that bind to the organ's cells, this, again, causes the organ's cells to malfunction or die. Again, this can lead to an autoimmune disorder or disease. An example is Guillain-Barré Syndrome (GBS), where the bacteria (or vaccine toxin) triggers the immune system to produce antibodies that attack and cause damage to the nerve cells .

You may be asking: Why is it so important to look at this at the cell level? One, it helps us to design an effective nutritional program that works at the cellular level; and, two, it will give you some insight into how your autoimmune disease works and why drugs won't solve the problem.

Of course, if you're not  into the science, that's okay -- but, we believe that the more you understand, the easier it will be to select a program that will actually help you.

As defined in the DTD AIP & Autoimmune Diseases Nutritional Program (see below for details), there are specific super foods, antioxidants, anti-inflammatories, vitamins, minerals, and immune system modulating foods/compounds that can suppress the immune response and help to modulate and rebalance the immune system -- without the need for drugs.

In addition, the DTD AIP & Autoimmune Diseases Nutritional Program identifies specific "trigger" foods, toxins, drugs, pathogens and stress that can trigger and continue to fuel an aggressive and out-of-balanced immune response, which can eventually manifest itself into an autoimmune disorder or disease.

By understanding and utilizing this kind of program, you can get your immune system under control and defeat your autoimmune disease; or, at least, get the disease under control without having to rely on toxic and expensive drugs for the rest of your life.

Autoimmune Disease Pathogenesis at the Cell Level Diagram



Hair Loss (Alopecia Areata)

Hair loss results from white blood cells in the immune system attacking healthy cells in hair follicles, thereby damaging the follicle and diminishing the production of hair.

As depicted in the above diagram, T cells attack the inflamed organ (in this case it's hair follicles), causing tissue damage, which causes more inflammation creating a vicious cycle that eventually leads to permanent hair follicle damage and hair loss.

The good news is stem cells supplying the follicle with new cells are not targeted, so hair follicles have the potential to regrow -- if the root cause of the hair loss can be found and eliminated or reduced.

Alopecia areata is the autoimmune disease that results in unexplaiined hair loss. Some autoimmune diseases that may cause hair loss include Hashimoto’s disease, lupus, Sjogren’s syndrome, Graves’ disease, multiple sclerosis, rheumatoid arthritis, and psoriasis.

Autoimmune hair loss encompasses a band of disorders which cause baldness in a range of severities, and can affect men, women and children of all ages and races. Together they come under the umbrella of Alopecia Areata, though each version has its own distinct symptoms and names.

The root causes or triggers of alopecia areata  include prescription/ OTC drugs, inflammation, pathogens/viruses, toxins, extreme shock, trauma, chronic stress, hormonal changes such as pregnancy or IVF, and genetic factors. Recent research has likened alopecia areata to ‘diabetes of the hair follicle‘, while links between vitamin D and alopecia areata appear fairly regularly in studies hoping to pinpoint the disorders’ actual cause.

Hair falls out when the underlying trigger causes the body’s immune system to turn on itself, shocking the hair growth cycle and leaving various follicles stuck in its resting – Telogen – phase. 

Some people experience thinning hair or large amounts of hair falling out in the shower or sink. Changes in hair texture can make it dry, coarse, or easily tangled. In some cases, thyroid replacement therapy with levothyroxine can lead to prolonged or excessive hair loss as a side effect. Hypothyroidism not associated with an underlying autoimmune disease can also cause hair loss.

The imbalance of hormones forces hair follicles to enter the resting or telogen phase of the hair cycle prematurely. This period lasts longer than usual, effectively shutting down hair production. Eventually, hair loss is visible because no new hairs have grown to replace those which naturally shed over time.

Hair follicles are unique structures with exceptional regenerative potential. They are believed to be crucial for epidermal homeostasis and reepithelialization after damage to human skin.

Like other, more active and quickly proliferating organ systems, hair follicles may be easily disturbed in their normal growth cycle by systemic and local influences, including specific skin diseases. This may lead to hair loss, a very common complaint in men and women.

The difficulties in reviewing the diseases of hair follicles lay in the long list of different etiologic factors (infectious, autoimmune, inflammatory, neoplastic, physical, chemical, congenital) making it difficult to isolate the specific root cause.

Autoimmune Disease Medical Treatments and Hair Loss

Hormone treatments are often used to help treat autoimmune disorders including hair loss due to autoimmunity. Steroids, androgen blockers, oral contraceptives, and immunosuppressant drugs may also be used to treat specific autoimmune diseases.

Unfortunately, these drugs do not fix the problem plus they all have side effects, one of which can be hair loss. When an autoimmune disease already causes hair loss, taking a drug with the same side effect can compound the situation and in extreme cases, may lead to complete baldness.

Likewise, certain things like food sensitivities, environmental toxins, or medications used to treat other medical conditions can exacerbate autoimmune disease symptoms and hair loss. 

The most effective and safe strategies include and diet and lifestyle changes, detox, supplementation, stress reduction, etc.

Type 1 Diabetes Autoimmune Disease Pathology & Pathogenesis (Cell Level)

Type 1 diabetes is an autoimmune disease that is entirely different from Type 2 diabetes. Type 1 diabetes is also known as insulin-dependent diabetes; and, used to be referred to as juvenile diabetes because it affected primarily children. However, that has changed recently, due to the increase with autoimmune diseases in adults.

Although medical science states that how Type 1 diabetes starts is unclear, it is pretty clear that there are several key factors associated with Type 1 diabetes as well as other autoimmune diseases, e.g. chronic inflammation, increase in antibodies, leaky gut syndrome, excess toxicity, oxidative stress, food sensitivities, etc.

Various immune cells including macrophages, dendritic cells (DCs), T cells, B cells, natural killer (NK) cells, are involved inflammation, oxidative stress and other harmful biological processes that cause damage to the pancreatic beta cells (which are responsible for producing insulin).

When the pancreas is injured usually due to a bacteria, virus, infection, drug, toxin, etc., the immune system has not had enough time to mature and be strong enough to fight off the effects, especially from multiple sources.

In response to the pancreas being injured or damaged, the immune system kicks in (as it's supposed to) to initiate the cell repair and healing process for the pancreas.

The first phase of the cell repair process is inflammation because the body needs extra blood and other elements (such as collagen) to repair and rebuild the damaged tissue. Actually, this is very similar to what happens to you when you cut your finger.

During this phase, macrophages are activated as part of the inflammation phase and cell repair process. During this time, the macrophages recruit other immune cells to help.

Normally, after the inflammation phase, the cell repair process proceeds to the proliferation and remodeling phases. However, during the inflammation phase, something goes awry. For some reason, the cells and tissues are not getting repaired, which prolongs the inflammation phase and causes more immune cells to be recruited.

Because the immune cells are not strong enough to fight off the virus, infection and other causal factors, the immune cells, specifically the macrophages, send out cytokine signals to recruit more immune cells -- T cells, including T Helper cells, Th1, Th2, and Th17.

Depending on the type of infection, the Th2 cells may indirectly recruit the B cells to create antibodies; while the macrophages may recruit more macrophages and more T cells.

The immune system tries to coordinate and balance the immune rsponse between the Th1 and Th2 cells as well as the Th17 and Treg cells, but, is unable to do so. In most cases, there are a lot more Th1 and Th17 cells, creating a major imbalance.

In addition, cytotoxic T cells are recruited -- their primary job is to kill the infected cells. However, if the infected cells happen to be the beta cells, then, the Tc or NKT cells start to destroy the beta cells! Other immune cells such as the macrophages, who's job is to kill the invading pathogens, attacks the infected or damaged beta cells, causing a further increase in the death of beta cells.

As inflammation increases causing more damage, there is an increase in free radicals causing an increase in oxidation, which further causes damage to the beta cells. This creates a vicious cycle of inflammation, oxidation, cell damage and cell death.

Unfortunately, this ends up creating more inflammation within the pancreas, which can lead to disorders and disease, including insulitis, beta cell dysfunction, and/or pancreatitis.  

(Author's Note: When I was in the hospital after I came out of the diabetic coma, I was diagnosed with pancreatitis, along with severe hyperglycemia, hyperinsulinemia, hypertriglyceridemia, deep vein thrombosis, (DVT), and NKHH coma. At the time, the doctors thought I had Type 1 diabetes until I asked for additional tests).

As the number of damaged beta cells increases, the amount of insulin production decreases causing a rise in blood glucose levels. This eventually leads to severe hyperglycemia, which usually goes unnoticed until the person starts to feel very tired and is urinating a lot, leading to a doctor's appointment.

These events may take years, but, in some cases, it can happen very quickly within several months -- especially if the patient has other health issues such as a leaky gut, an infection, or some other disease.

This all leads to cell dormancy, dysfunction, and finally death of the pancreatic beta cells. This eventually leads to less than 10% insulin production; and, in some cases, 0%. By then, the patient has been put on insulin to get the blood glucose back down to a reasonable and safe range.


Please Note: As you can see from the diagram, chronic inflammation fuels Type 1 diabetes (and Type 1.5 diabetes) and leads to the destruction of the beta cells. The key here is to understand that there are many factors and variables that can trigger and sustain the chronic inflammation, e.g. virus, infection, leaky gut, drugs (vaccines, antibiotics), "dead" foods, toxins, immune cells, etc.  The key here is to eliminate these potential root causes as soon as possible.

despite these problems and the harsh reality that the patient will require insulin to maintain proper blood glucose levels, there are still some safe things (such as better nutrition) that can be done to make the disease more manageable and require less insulin and other drugs.

Unfortunately, doctors are unaware of how to use nutritional science to help the patient, since most doctors only took a 3-hour course in nutrition. In some cases, the beta cell damage could, at least, have been slowed down or stopped temporarily instead of allowing it to continue to accelerate.

Most people with Type 1 diabetes, especially children, are unaware of how to eat properly to reduce their body's need for so much insulin.

Of course, Type 1s will always need insulin, however, they can reduce their body's need for so much insulin. Why is this important? Because, the insulin is still a drug! And, if you can reduce the amount of drugs going into your body, that's a good thing.

However, most Type 1s are unaware of the importance of nutrition -- unless they learned about it from their parents or on their own. Instead, most type 1s are told to eat whatever they want and just take more insulin to compensate! 

As previously mentioned, in Type 1 diabetes the pancreas does not produce enough of the hormone insulin or stops making it altogether. Insulin is vital to the process of moving glucose from the bloodstream into the body's cells, where it is used for energy. It also is needed to help the liver to store excess glucose.

Without sufficient insulin, the body is unable to process and use sugar properly to produce the energy that the body needs. Medically, this is known as an inability to metabolize glucose, which results in an abnormally high level of glucose in the blood, called hyperglycemia.

Left untreated, Type 1 diabetes can rapidly progress into life-threatening conditions, including diabetic ketoacidosis, hyperosmolar hyperglycemic nonketotic syndrome, shock, coma, and death.

It appears that two peaks of Type 1 diabetes incidences occur in childhood and adolescence—one between 5 and 7 yr of age, with the other occurring at or near puberty (Harjutsalo et al. 2008).

Beyond this, although many autoimmune disorders disproportionately affect women, Type 1 diabetes (T1D) appears to affect males and females equally. But, there is some debate whether there is a modest increase of T1D cases in males in early age (Weets et al. 2001; Krischer et al. 2004).

Long-term complications of Type 1 diabetes are serious and affect every major body organ. They include kidney failure, diabetic retinopathy, blindness, peripheral neuropathy, serious skin infections, gangrene, lower leg amputation, cardiovascular disease, stroke, disability, and death. 

For more details about Type 1 diabetes, get the author's Autoimmune Diseases book or read the TBD blog post.


Type 1.5 Diabetes: LADA: Latent Autoimmune Diabetes of Adults 

Latent autoimmune diabetes of adults (LADA), sometimes called Type 1.5 diabetes is a slow-onset version of Type 1 diabetes in adults. 

Adults with LADA has been increasing over the past 10-12 years. Why is this happening? Because there are so many adults with Type 2 diabetes who have been taking diabetic medication for years, causing their pancreas to "wear out" and/or cause their immune system to over-react and become dysfunctional.

For Type 2 diabetics, their pancreas is working just fine -- but, it's working overtime, producing 2 to 4 times more insulin than non-diabetics. In addition, the diabetic medication does absolutely nothing to stop this excess insulin production and the spread of the diabetes!

The diabetic drug focuses strictly on artificially lowering the person's blood sugar and possibly his/her hemoglobin A1C, while the diabetes continues to spread its damage from cell to cell. 

This artificial lowering of the diabetic's blood sugar gives Type 2 diabetics a false sense of security that the drug is actually working! But, the drug is only controlling the symptom of the disease, not the root cause! As a result, the disease continues to progress and cause more internal damage to the diabetic's cells, tissues and organs.

To make matters worse, the long-term use of diabetic drugs (e.g. metformin) may cause damage to the liver and or kidneys, especially if the liver fails to break down the drug into harmless chemicals.

In addition, some diabetic drugs (such as glucotrol) stimulate the pancreas to produce insulin, again, causing the beta cells to wear out.

In the meantime, the diabetic's doctor continues to increase the drug dosage and adds additional drugs until one day the doctor tells the diabetic that he/she has to go on insulin. And, this may eventually evolve into Type 1.5 diabetes (LADA).

In another scenario, a diabetic may take multiple medications for diabetes, high cholesterol (e.g. statin drug), and high blood pressure. This combination of drugs creates a toxic "drug cocktail" that causes harm to the liver, kidneys and especially the immune system. This harm to the immune system may create an immune system dysfunction, which can trigger an autoimmune response, which, in turn, can lead to an autoimmune disease such as Type 1 diabetes or Type 1.5 diabetes.

In a different scenario, as the diabetes progresses, the immune system may start to fail, causing an autoimmune dysfunction that can morph into a thyroid problem, lupus, Type 1.5 diabetes or some other autoimmune disease.

The bottom line here is that the reliance on drugs to lower one's blood sugar causes additional health problems that makes it even more difficult to control one's blood sugar or requires that the person go on insulin because the diabetic pills have lost their effectiveness.

In other scenarios, some Type 2 diabetics may be initially misdiagnosed as having Type 2 diabetes, but, they found out years later that have Type 1.5 diabetes or LADA. People with LADA do not have insulin resistance, which is a key characteristic of Type 2 diabetes. Also, people with LADA tend not to be overweight -- in fact, many of them struggle with unwanted weight loss and fatigue. In most cases, they end up developing an autoimmunity dysfunction, which is a key characteristic of Type 1 diabetes.

The National Institutes of Health (NIDDK) defines LADA as “a condition in which Type 1 diabetes develops in adults.” LADA is primarily a genetically-linked, hereditary autoimmune disease that results in the body mistaking the pancreas as foreign and responding by attacking and destroying the insulin-producing beta islet cells of the pancreas.

In reality, it's not the genetics ...

Type 1 Diabetes and Type 1.5 Diabetes Pathogenesis at the Cell Level

The following diagram provides an overview of how an autoimmune disease (such as Type 1 diabetes or Type 1.5 diabetes) develops at the cellular level.

Due to a combination of taking too many drugs (especially antibiotics!), eating the wrong foods, and accumulating a lot of toxins in the cells, this can weaken the immune system, making you more susceptible to infections, viruses, and other disease pathologies.

At some point, these problems in combination with several harmful biological processes (such as inflammation and oxidation) can cause cell damage to one or more organs and/or tissues in the body.

If that organ happens to be the pancreas, the immune system tries to repair the cell damage by launching its immune cells to initiate the cell repair process. And, the first step in the cell repair process is inflammation.

Remember when you cut your finger and it turned red? That was a sign that your body had started the cell repair process, with inflammation being the first phase of the repair process. Something similar happens inside your body, when an organ or tissue is damaged.

Once inflammation is triggered, local macrophages send out cytokines (chemical signals) to recruit other immune cells such as neutrophils and macrophages to come to the site of the injury and eat up the dead bacteria and any invading pathogens to prevent the infection from spreading. 

However, if the injury is extensive or if there are other health problems (e.g high blood sugar), this may slow down the immune system and reduce its effectivity. If this persists, the macrophages will continue to recruit more macrophages, which, in turn, recruit more macrophages, creating a vicious cycle. 

If part of the problem is an invading pathogen, the macrophage eats the pathogen and presents part of the pathogen (antigen) to a dendritic immune cell.

The dendritic immune cell uses this antigen to notify the T cells to come and help fight the invaders. The T cells proliferate into T helper cells (Th1, Th2, Th17) to help recruit more immune cells and participate in the attack. 

In addition, the cytotoxic T cells (or natural killer T cells) are activated so that they can directly attack and kill any infected cells. However, if the infected cells happen to be the beta cells, then, the Tc or NKT cells start to destroy the beta cells! Other immune cells such as the macrophages, who's job is to kill the invading pathogens, attacks the infected or damaged beta cells, causing a further increase in the death of beta cells.

If this kind of attack continues without any intervention, the attack escalates. And, if there is an imbalance in the attack between Th1 and Th2 cells (or Th17 and Treg cells), this imbalance can trigger an autoimmune response, which can manifest into an autoimmune disease.

And, in this particular case, because the immune cells are attacking the pancreatic beta cells, this can lead to a reduction in the production of insulin by these beta cells. And, if there happens to be some low level infection or virus or other systemic health problem, this can accelerate the beta cell damage and lead to Type 1 or Type 1.5 diabetes.

p.s. If you're not into the science, this discussion about the cells may not make much sense. But, the key point here is that given that the problem is usually due to some external factor (e.g. bacteria, toxin, food, stress, etc.), taking a drug won't fix the problem. In fact, the drug can actually fuel the inflammation and accelerate the damage to the cells and spread of the disease.

Type 1.5 Diabetes: LADA: Latent Autoimmune Diabetes of Adults -- Death to Diabetes 

Please Note: As you can see from the diagram, chronic inflammation fuels Type 1.5 diabetes (and Type 1 diabetes) and leads to the destruction of the beta cells. The key here is to understand that there are many factors and variables that can trigger and sustain the chronic inflammation, e.g. virus, infection, leaky gut, drugs (vaccines, antibiotics), "dead" foods, toxins, immune cells, etc.  The key here is to eliminate these potential root causes as soon as possible.

It is imperative that Type 2 diabetics struggling with LADA change their diet immediately to a plant-based nutritional program such as the Death to Diabetes Nutritional Program or the DTD AIP & Autoimmune Diseases Nutritional Program. The longer you delay, the more damage that will occur or is occurring.

In addition, it is imperative to address the autoimmunity before it gets out of control. Use the DTD Autoimmune Diseases Wellness Program in conjunction with the targeted foods and supplements identified as part of the AIP & Autoimmune Diseases Nutritional Program.  

From a medical perspective, LADA differs from Type 1 diabetes in that the disease progresses gradually. People with Type 1 diabetes are typically completely dependent on insulin within 12 months of diagnosis.

By contrast, many people with LADA still produce some insulin and may not require insulin injections for several years following diagnosis. They are often able to control their blood sugar through meal planning, oral medication, and lifestyle changes.

As the disease progresses and the beta cells are further damaged, the pancreas produces less and less insulin. There tends to be a gradual increase in insulin requirements, positive antibodies, and decreasing ability to make insulin as indicated by a low C-peptide.

People with LADA have increased levels of glutamic acid decarboxylase antibodies (GAD Ab), an autoimmune marker of an attack on the cells that produce insulin. Eventually this leads to an absolute lack of insulin. It is this insulin deficiency that identifies type 1 diabetes. This late-onset type of type 1 diabetes is known as 'latent autoimmune diabetes of adults', 'slow onset type 1', or 'type 1.5 diabetes'.

The National Institutes of Health estimates that 10 percent of people who have been diagnosed as type 2 diabetics may actually have LADA. A misdiagnosis of this nature can lead to months or even years of incorrect treatment, putting patients at a risk of further complications and frustrations as they attempt to find the best approach for controlling their diabetes.

If you’ve been diagnosed with type 2 diabetesbut your ability to control your blood glucose with lifestyle changes and oral medications has diminished over time, you should first find an effective diet that will help you. Specifically, find a diet that addresses the cell inflammation, immune system dysfunction, and other biological root causes of the diabetes -- a diet that includes vegetables, juicing, detox, etc. and excludes grains, milk, flour, etc.

If the diet doesn't help you, it may be the wrong diet. Otherwise, you may want to ask your doctor to test you for LADA.

Depending on the aggressiveness of the immune attack on the insulin-producing beta cells of the pancreas, people with LADA progress to need insulin injections at varying rates. Most people with LADA will be on insulin within six years of the time of correct diagnosis.

However, although controversial, we believe that the early introduction of eating healthy plant-based foods and avoiding "trigger" foods may preserve the remaining insulin-secreting beta cells for longer.

Medical  Diagnosis of LADA

It is estimated that 20% of persons diagnosed as having non-obesity-related type 2 diabetes may actually have LADA. Islet cell, insulin, and GAD antibodies testing should be performed on all adults who are not obese that appear to present with type 2 diabetes. Not all people having LADA are thin, however—there are overweight individuals with LADA but who are misdiagnosed because of their weight.

Moreover, it is now becoming evident that autoimmune diabetes may be highly underdiagnosed in many individuals who have diabetes, and that the body mass index levels may have rather limited use in connections with latent autoimmune diabetes.

Also, many physicians or diabetes specialists don't recognize LADA or probably don't know the condition actually exists, and so LADA is misdiagnosed as or mistaken for Type 2 diabetes highly often.

C-peptide: This test measures residual beta cell function by determining the level of insulin secretion (C-peptide). Persons with LADA typically have low, although sometimes moderate, levels of C-peptide as the disease progresses. Patients with insulin resistance or type 2 diabetes are more likely to, but will not always, have high levels of C-peptide due to an over production of insulin.

Autoantibody panel: Glutamic acid decarboxylase (GAD) autoantibodies, radioimmunoassay (RIA) and insulin antibodies, radioimmunoassay, RIA are commonly found in diabetes mellitus type 1.

Islet cell antibodies (ICA) tests: Persons with LADA often test positive for ICA, whereas type 2 diabetics only seldom do.

Glutamic acid decarboxylase (GAD) antibodies tests: In addition to being useful in making an early diagnosis for type 1 diabetes mellitus, GAD antibodies tests are used for differential diagnosis between LADA and type 2 diabetes and may also be used for differential diagnosis of gestational diabetes, risk prediction in immediate family members for type 1, as well as a tool to monitor prognosis of the clinical progression of type 1 diabetes.

Insulin antibodies (IAA) tests: These tests are also used in early diagnosis for type 1 diabetes mellitus, and for differential diagnosis between LADA and type 2 diabetes, as well as for differential diagnosis of gestational diabetes, risk prediction in immediate family members for type 1, and to monitor prognosis of the clinical progression of type 1 diabetes. Persons with LADA may test positive for insulin antibodies; persons with type 2, however, rarely do.

Systemic lupus erythematosus (SLE), the most common type of lupus, is a chronic autoimmune connective tissue disease that causes inflammation of joints, tendons, skin and other connective tissues, and organs; including inflammation of the kidneys and the fibrous tissue surrounding the heart (i.e. the pericardium).

Normally, on a daily basis, millions of new cells are created and millions of old cells die and are removed from your body via your liver, spleen, kidneys and immune system. If these old cells are not removed, they can build up and interfere with the functions of the new cells as well as the other cells and tissues in your body.

When a cell gets old or injured, it goes through a process called apoptosis, which is a form of programmed cell death. During this process, the old cell shrinks and pulls away from its neighboring cells. Then, the surface of the cell appears to boil, with fragments breaking away and escaping like bubbles from a pot of hot water. The DNA in the cell’s nucleus condenses and breaks into evenly sized fragments. Soon the nucleus itself disintegrates, followed by the entire cell.

Then, a cellular cleanup crew of phagocytic cells — immune cells that engulf and dispose of dead cells and debris — arrives on the scene to mop up the remains. These phagocytic cells (known as macrophages) perform phagocytosis.

Phagocytosis (from Ancient Greek (phagein), meaning 'to devour', (kytos), meaning 'cell', and -osis, meaning 'process') is the process by which a cell—often a phagocyte—engulfs a pathogen or cell debris to form an internal compartment known as a phagosome. The phagosome uses enzymes and toxic peroxides to digest the pathogen.

FYI: There are other phagocytes such as neutrophils, eosinophils, basophils and dendritic cells. However, macrophages are the only cells involved in this type of cell debris cleanup, which may include other phagocytes after they die.

However, during this cleanup process, if these macrophages fail to remove all of the cell debris, it begins to pile up. And, if the debris begins to collect in an unwanted area such as the joints, this can cause damage to the joint.

When this happens, it triggers an inflammatory immune response where immune cells arrive to repair the damage to the joint area (such as the tendons or bursa sacs).

As depicted in the diagram below, if the damage is not repaired and more cell debris collects, this can lead to chronic inflammation and more pain in the joint area.


Medical science says it's not clear how lupus starts, but, it appears that pathogens, drugs (such as vaccines and antibiotics), biochemical and hormone changes, stress, a weak immune system, and a poor diet are possible triggers of this disease.

Note: Since the accumulation of cell debris can occur in almost any area of the body, this is one of the reasons why so many different organs and tissues are affected and damaged by lupus, e.g. skin, mouth, joints, kidneys, lungs, nerves, heart, etc.

For another example of how an autoimmune disease develops at the cellular level, let's take a look at Guillain-Barré Syndrome (GBS).

Guillain-Barré Syndrome (GBS)is a rare but serious autoimmune disorder in which the immune system attacks healthy nerve cells in your peripheral nervous system. This leads to weakness, numbness, and tingling; and, can eventually cause paralysis, if not treated.

The cause of this condition is unknown, but it’s typically triggered by an infectious illness, such as influenza, the stomach flu or a lung infection, or a recent vaccine, flu shot or other prescription drug.

Guillain-Barré is rare, affecting about 1 in 100,000 Americans, according to the National Institute of Neurological Disorders and Stroke. There is no medical cure for the syndrome, but there are effective alternative treatments, which can reduce the severity of the symptoms and shorten the duration of the illness.

There are multiple types of Guillain-Barré, but the most common form is acute inflammatory demyelinating polyradiculoneuropathy (AIDP). It results in damage to myelin sheath (which is the insulation that covers the nerve cells). Other types include Miller Fisher syndrome, which affects the cranial nerves.

Causes of Guillain-Barré Syndrome
According to the Centers for Disease Control and Prevention (CDC), about two-thirds of people with Guillain-Barré develop it soon after they’ve been sick with diarrhea or a respiratory infection. This suggests that the disorder may be triggered by an improper immune response to a toxin such as a bacteria or a toxic medication.

Campylobacter jejuni infection has been associated with Guillain-Barré. Campylobacter is one of the most common bacterial causes of diarrhea in the United States. It’s also the most common risk factor for Guillain-Barré. Campylobacter is often found in undercooked food, especially poultry.

Other infections that have also been associated with Guillain-Barré include:

  • Influenza
  • Cytomegalovirus, which is a strain of the herpes virus
  • Epstein-Barr virus infection (which may also trigger Hashimoto's)
  • Mononucleosis
  • Mycoplasma pneumonia

In addition, people can develop the disorder days or weeks after receiving a vaccination or flu shot. Unfortunately, most adverse reactions to vaccines and flu shots are not reported.

From a medical science perspective, it is still not clear what actually causes this disease. However, here is a simple flow diagram that depicts how we believe that this disease develops at the cellular level.


As depicted in the diagram, usually, a bacteria such as Campylobacter jejuni produces an infection that triggers an immune response from the innate and adaptive immune systems. 

Macrophages attack and recruit other immune cells, while dendritic cells consume the bacteria and produce antigens that are presented to T cells.

Based on the antigen, the T cells activate macrophages or killer T cells to kill the bacteria. Another scenario, based on the antigen, triggers the T cells to activate B cells and plasma cells to produce antibodies to fight the bacteria and infection.

However, it appears that the bacteria contains a protein that is similar to a protein within the nerve cells. As a result, the macrophages and other immune cells attack the axon portion of the nerve cell, which interrupts the signal to the muscle cells.

In addition, the antibodies attack and destroy the myelin sheath covering of the nerve cell, causing intermittent signal disruption, which results in numbness or tingling and progresses to pain, muscle weakness, slow reflexes, and other problems.

Keys to address this autoimmune disease and others, include changing to a nutrient-dense and plant-based nutritional program such as the aforementioned DTD AIP & Autoimmune Diseases Nutritional Program. This program will help to nourish and strengthen your immune system against future attacks and infections.

Another key to addressing this disease, as well as other diseases, is to perform a cleanse-and-detox as soon as possible. Why is this important? Because, since the primary cause is due to a bacteria, virus or toxin, it is imperative that you perform a comprehensive cleanse and detox of all organs and tissues to remove the offending toxins and/or bacteria, as explained in the DTD Cleanse & Detox Program.

Even if you are currently in remission, making these changes are still important since  it is only a matter of time before a flare occurs or another autoimmune disease develops.

FYI: Most people with an autoimmune disease have a high probability of developing a second autoimmune disease, especially, if a sound nutritional program is not implemented when the first autoimmune disease develops..

Multiple Sclerosis (MS) Pathogenesis

Multiple sclerosis (MS) is a chronic inflammatory and neurodegenerative disease that causes damage to the nerves in the brain, spinal cord and other parts of the central nervous system. MS is characterized by the presence of lesions of inflammation, axonal loss, and demyelination that affect the white and gray matter.

Multiple sclerosis (MS) causes damage to nerve cells and other cells in the CNS along with the BBB, starting with the damage to the myelin sheath, which is the fatty substance that surrounds and protects the nerve cells. When myelin is damaged, it can become inflamed and slow down or block messages between your brain and your body.

The result is the formation of hardened scar tissue (sclerosis), causing nerve function to deteriorate over time, resulting in a number of symptoms, including: muscle weakness; numbness, imbalance, loss of coordination, tremors; astigmatism and vision loss.

Medical science is not certain how multiple sclerosis starts, but, it appears to be triggered by a combination of factors, which may include viral infections (e.g. Human herpes virus 6 (HHV-6) and Epstein-Barr virus (EBV)), exposure to toxins such as heavy metals, prescription drugs (e.g. vaccines, antibiotics), poor diet (e.g. Vitamin D deficiency), stress, and genetics.

The cascade of cellular events involved with MS differs between individuals, but, the key pathological events in MS are similar. T Helper cells are activated in the periphery, which eventually triggers the development of antibodies by the B cells for the myelin antigens.
While in the periphery activated T Helper cells increase the immune response by recruiting additional immune cells including: cytotoxic T cells, B cells, granulocytes (neutrophils, basophils, eosinophils), monocytes (macrophages), and mast cells.

When the blood-brain-barrier (BBB) is attacked by the T cells, inflammation cytokines from the T cells weaken the tight junctions in the BBB. This allows the T cells and other immune cells to cross the blood brain barrier endothelium and enter the central nervous system (CNS).


Following entry into the CNS, the T cells are reactivated by antigen-presenting cells (APCs). Following reactivation, the T cells release proinflammatory cytokines and a variety of chemokines. These cytokines amplify local inflammation and damage to the myelin sheaths by activating microglia and astrocytes, which can induce myelin phagocytosis and cause increased reactivation of the T cells.

In addition, cytotoxic T cells cause damage to the oligodendrocytes.
Upon entering the CNS, B cells produce myelin-specific antibodies, which attack the myelin sheaths, causing more damage and creating more inflammation. This leads to the recruitment of more immune cells, including macrophages (microglia) and eosinophils, causing more damage to CNS (myelin, astrocytes, oligodendrocytes, axons).

This damage to the myelin sheaths causes a loss of myelin, which is known as demyelination. Imagine a damaged electrical cord with wires visible, and you'll have a picture of how the nerve fibers appear without myelin. Just like a damaged electrical cord may short out or create intermittent surges of power, a damaged nerve fiber will be less efficient at transmitting nerve impulses. This can trigger the symptoms of MS.

In the areas of myelin damage, the nerve fibers form scar tissue, which is known as lesions or plaques. These lesions are stiff, hard, and block or obstruct the flow of messages between nerves and muscles, causing muscle weakness and other muscle-related tasks.

During this onslaught of chronic inflammation and oxidative stress from the T cells and other immune cells, some of the oligodendrocytes that survive will begin to re-myelinate the lesions and other damaged areas of the nerve cells.

However, the original myelin thickness is not achieved again. The combination of these events results in decreased axonal conduction.

Th1 or Th2 Dominant Disease?
It's not clear whether MS is Th1 or Th2 dominant. During active multiple sclerosis, lymphocytes express excessive levels of Th1 cells, which increases Th1 cell-mediated inflammation. But, both Th1 and Th2 cytokines are present in CNS immune cells and also in peripheral immune cells.

In addition, there are Th17 cells, which amplify autoimmune CNS inflammation and may cause damage to the myelin sheaths. Also, there are cytokines associated with Th17 that are proinflammatory. The inflamed blood-brain barrier and monocytes, which have transformed into dendritic cells, help polarize naïve T cells into Th17 cells.

T regulatory cells (Treg) may be involved in immune regulation in multiple sclerosis, but, they appear to have reduced function in multiple sclerosis, especially without Vitamin A (retinol).
B cells have direct effects on immune regulation and brain destruction; and, secrete various chemokines.

Monocytes and microglia present antigens and amplify immune responses. They communicate with cells hundreds of microns away. Peripheral monocytes produce excessive nitric oxide, which is neurotoxic and damages oligodendrocytes but also destroys activated T cells. Microglia in the brain release nitric oxide, oxygen radicals, complement, protease, and cytokines. Activated macrophages are generally toxic to CNS cells.

So, this implies that it would be more effective to follow the base program (DTD Autoimmune Protocol (AIP) & Autoimmune Diseases Nutritional Program) along with the specific nutritional recommendations identified in the DTD Autoimmune Diseases book.

Most people are aware that Type 1 diabetes and Type 2 diabetes are two entirely different diseases -- one is an autoimmune disease and the other is a lifestyle-driven disease.

However, both diseases can be better controlled and managed with a nutrient-dense and macronutrient balanced nutritional program such as the Death to Diabetes Nutritional Program and the DTD AIP & Autoimmune Diseases Nutritional Program.

In addition to eating properly, there are other ares that have to addressed, including blood glucose testing, journaling, testing analysis,detox, nutritional supplementation, herbal therapy, exercise, emotional support, and spirituality. This is addressed in the Death to Diabetes 10-Step Wellness Program and the DTD Reverse Autoimmune Diseases 10-Steps Wellness Program.

Author Sidebar: Several years ago, after helping several clients who were Type 1 diabetic, several other clients who were Type 2 diabetic came to us with other autoimmune disease problems: hypothyroidism, lupus, sarcoidosis, fibromyalgia, and Sjögren's syndrome. 

In order to help them, I had to do a lot of research. I started by researching each disease and, more importantly, I spent a lot of time researching and learning about the immune system. During my research, I learned several key points:

Although each disease was different, there were several areas that were common to each disease, e.g. biological processes, symptoms, pathology, pathogenesis, nutrition, supplementation, nutrient deficiencies, toxins, food sensitivities, pain, inflammation, etc. 

I visited hundreds of websites associated with autoimmune disease, treatment, research, nutrition, etc. with a lot of great information, but, some of it was conflicting and somewhat confusing. I'm sure some of it was because I was just learning about these diseases.

I found a lot of websites with great information that provided non-drug natural solutions.

But, during my research, I couldn't find a website that provided a structured approach to fighting this disease. A similar thing happened years ago when I was researching Type 2 diabetes -- I couldn't find any natural remedies with a structured approach.

Being an engineer, I am partial to structure, because it makes it easier to solve problems, especially complex problems. So, once I gained a basic understanding of each disease and how the immune system worked, I decided to reverse-engineer the operation of the immune system and use failure modes analysis methodologies to gain a better understanding of the immune system and define a set of natural remedies.

I learned that there are 3 major functions that the immune system performs. During my research, every website I visited and every book I read mentions that the function of the immune system is to protect us by fighting and killing bacteria, viruses and other pathogens that try to invade our bodies.

However, no websites and no clinical/medical experts in autoimmune diseases mentioned the other two functions! (Maybe, I just haven't come across those websites or books yet ...). 

Understanding these other two functions (repair damaged cells and coordinate the immune response) along with cell biology, pathogenesis, cell inflammation, root cause analysis, and nutritional science helped me to design an autoimmune disease wellness program, similar to my diabetes program but with some obvious exceptions and modifications. 

Then, I designed an autoimmune disease nutritional program, again, similar to my diabetes program but with some obvious exceptions and modifications that would address the root causes of most autoimmune diseases.

During the past 3 years, I modified both the autoimmune disease wellness program and nutritional program, based on more research; and, also, based on input from our clients with autoimmune diseases.

Getting real-world input from our clients about their autoimmune disease was critical and helped me to better define and document both the wellness program, the nutritional program; and, later, the training program.

There are several key biological processes that fuel all autoimmune diseases, e.g. chronic inflammation, oxidative stress, hormonal imbalance, excess toxicity, nutrient deficiencies. Ironically, these same biological processes fuel the top diseases, including heart disease, cancer, Type 2 diabetes, obesity.

Lupus and Diabetes

Chances increase that a person will develop diabetes, when he/she has lupus and a predisposition to problems with blood sugar.

As previously mentioned, diabetes and lupus share a connection: inflammation in the cells. And, if lupus is treated with corticosteroids, it may cause blood glucose levels to rise.

As a result, long-term use or high doses of corticosteroids, particularly Prednisone, can trigger diabetes in someone already predisposed to it.

People with lupus or diabetes – or both – can improve overall health and relieve a number of symptoms just by making healthier food choices.

A plant-based diet with lots of vegetables, legumes, and plant oils is very beneficial to treating both diseases naturally.

Exercise, adequate rest and stress reduction are also important in treating both of these diseases.

A plant-based diet (such as the DTD Autoimmune Diseases Diet) in combination with lifestyle changes will strengthen the body and help the immune system return to a state of balance.

Sarcoidosis, MS and Diabetes

Similar to lupus, if a person with sarcoidosis or multiple sclerosis (MS) has a predisposition to problems with blood sugar and is treated with corticosteroids, it may cause blood glucose levels to rise.

And, with long-term use or high doses of corticosteroids, particularly Prednisone, a person can develop Type 2 diabetes, if that person is already predisposed to it.

However, a plant-based diet (such as the DTD Autoimmune Diseases Diet) in combination with lifestyle changes will help to strengthen and rebalance the immune system.

Sjögren’s Syndrome and Diabetes

Sjögren’s Syndrome is an autoimmune disease in which the glands that produce tears and saliva are destroyed, causing dry mouth and dry eyes. However, this disease may affect many different parts of the body, including the kidneys and lungs.

This autoimmune disease causes inflammation in the glands that produce tears (lacrimal glands), which leads to decreased water production for tears and decreased saliva production and dry eyes.

This disease also causes Inflammation of the glands that produce the saliva in the mouth (salivary glands, including the parotid glands), which leads to dry mouth and dry lips.

Based on recent research, it appears that Sjögren’s Syndrome is triggered by a combination of factors, including a virus or bacteria, a local infection, use of prescription drugs such as vaccines and antibiotics, excess use of OTC drugs such as NSAIDs, intestinal permeability (leaky gut), and other similar risk factors.

The Th1, Th17 and Tfh (follicular) Helper cells of the Adaptive Immune System trigger prolonged inflammation, ongoing infections, apoptosis (cell death), and the poor clearance of dead cells -- all of which negatively affects the salivary and lacrimal glands as well as epithelial cells.

In addition, RF antibodies and immune complexes are created by the B cells, causing inflammation and damage to epithelial cells and tissues. Neutrophils and mast cells are also activated, causing more inflammation as well as an increase in free radical damage, leading to more tissue damage.

When the lacrimal or salivary glands are damaged due to an exposure to a toxin and/or an attack from an invading bacteria or virus, the immune system responds (as it should).

The immune system provides an immune response to destroy the bacteria or virus and/or remove the toxin from the body. The first stage of the immune response is inflammation, where local immune cells (such as macrophages) become activated.

If the macrophages need help, they will recruit additional immune cells to the damaged area (in this case, a gland), where the cells attempt to repair the damaged cells and tissues.

Unfortunately, something goes awry, when some of the immune cells identify self-antigens from the gland tissue as the enemy. As a result, antibodies and immune complexes are produced, which end up attacking the healthy gland tissue.

More specifically, macrophages and dendritic cells activate T cells by sending out chemical signals (cytokines), based on the antigen that triggered the immune response. Based on these signals, specific T Helper cells such as Th1, Th17, and Tfh cells are activated, promoting inflammation with the objective to repair the injured area.

But, if the injured area is not repaired, the T Helper cells increase while the cells that fight inflammation such as Treg cells are suppressed or not enough of them are generated to offset the large number of proinflammatory Th1, Th17 and/or Tfh cells.

All of these cells try to kill the virus or other antagonist, but, instead, their efforts cause more inflammation, which recruits more immune cells. These is also an increase in free radicals (ROS) and oxidative stress, which causes damage to the epithelial cells.

This damage causes more inflammation, which triggers the recruitment of more immune cells, including macrophages and other immune cells such as neutrophils and mast cells.

Note: There doesn't appear to be any pathological connection between Sjögren’s Syndrome and diabetes, but, some people with Sjögren’s Syndromemay develop Type 1 diabetes. However, you should get your fasting blood glucose and hemoglobin A1C tested to make sure.

DTD  Reverse  Autoimmune Diseases Wellness Program

The DTD Autoimmune Diseases Wellness Program includes natural treatment strategies and remedies that are designed to reverse autoimmune diseases and accomplish the following health goals:

  • Reduce chronic inflammation
  • Suppress candida (yeast) overgrowth
  • Stimulate healthy intestinal flora
  • Provide intestinal/gut repair
  • Nourish cells and tissues with superior nutrition
  • Calm and rebalance the immune system
  • Kill and/or control viruses and their effects
  • Get rid of any infections or secondary diseases
  • Balance and modulate the immune system

Similar to my Death to Diabetes Wellness Program, the Autoimmune Diseases Wellness Program (ADWP) addresses the primary root causes that fuel most autoimmune diseases.

In addition, there needed to be some kind of structure incorporated into the wellness program to make it easier for people with autoimmune diseases to follow the program and increase their success rate.

After several years of research and working with people with autoimmune diseases such as Type 1 diabetes, Type 1.5 diabetes, and lupus; and, some clients with thyroid issues and chronic fatigue, we designed a 10-step wellness program, as depicted in the following diagram. 

The following is a summary of the 10 steps of the DTD Autoimmune Diseases Wellness Program, which is designed to modulate and rebalance the immune system to help reverse the autoimmune disease; or, at least, stop its progression naturally (without the need for drugs).

The DTD Autoimmune Diseases 10-Steps Wellness Program represents your base wellness program, which includes the DTD AIP & Autoimmune Diseases Nutritional Program. Although the nutritional program is obviously the critical component in being able to reverse and defeat your autoimmune disease, there are other lifestyle choices that can help you with defeating your disease.

As you proceed through the 10 steps, based on your specific pathology, health needs, food sensitivities, test results, food journal, etc., you can customize our program to address your specific needs and treatment strategies.

Key Point: The reason why our program is customizable is because everyone's autoimmune disease is different; plus, everyone reacts differently to various foods and supplements. This is also one of the reasonswhy we recommend that you keep a food journal.

The following diagram provides an overview of the DTD Autoimmune Diseases Wellness Program, which consists of 10 steps.

The following is a summary of the 10 steps of the DTD Autoimmune Diseases Wellness Program that is designed to modulate and rebalance the immune system to help reverse the autoimmune disease; or, at least, stop its progression naturally (without the need for drugs).

These 10 steps are designed to work synergistically to reduce inflammation, reduce oxidation, rebalance the immune response, and, repair the cells and tissues by addressing the underlying biochemical and hormonal mechanisms that fuel the autoimmune disease.

Step 1: Acquire knowledge about autoimmune disease and its complications, nutrition, exercise, and drugs to increase your knowledge and provide direction on your journey to wellness. Visit your local library, go to medical-related websites, take classes, and talk to others who have defeated the disease. 

Step 2: Eat the “live” super foods (using the AD Super Meal Plate Model) in order to reduce cell inflammation, reverse your autoimmune disease and rebalance your immune system.

Key foods include green and bright-colored vegetables, dark-colored fruits, raw juices, sea vegetables, grasses, plant protein, plant oils, cold-water fish, grass-fed animal meat, and filtered/distilled water.

In addition, drink raw juices in conjunction with eating plant-based super meals to optimize your nutritional program. Buy a steamer, blender, juicer, and grinder (for flaxseeds). 

Eat foods with antiviral properties (e.g. garlic, turmeric) to kill viruses, especially since viruses are one of the key triggers for many autoimmune diseases.

Customize your nutritional program to eat immune modulating foods and compounds; and, specific Th1/Th2 foods and compounds.

Step 3: Stop eating the "trigger" foods and “dead” processed foods in order to prevent further cell inflammation and prevent the immune system from over-reacting and causing flare-ups. This is very important, especially, if you want the opportunity to be able to reverse your autoimmune disease and rebalance your immune system.

Key compounds and chemicals to avoid include sugar, gluten, flour, lectins, casein, high fructose corn syrup, “enriched” foods, starches, trans fats, conventional animal meat, vegetable oils, processed foods, fast foods, and drugs.

Key foods to avoid that contain these compounds and chemicals include wheat, grains, bread, pasta, rice, potatoes, “enriched” foods, starches, cereals, corn, pastries, coffee, vegetable oils, canola oil, soda, diet soda, bottled fruit juices, tap water, and artificial sweeteners.

Other foods to avoid include conventional animal meats which are full of antibiotics and growth hormone, e.g. beef, pork, chicken, turkey, etc.

In addition, avoid alcohol and tobacco; and, if possible, try to avoid OTC drugs and prescription drugs as much as possible.

Also, avoid food triggers, such as driving past a fast food place. :-)

In addition, depending on your specific autoimmune disease and other health issues, you may need to avoid some traditional healthy foods, including nightshade vegetables, eggs, soy, legumes, lentils, beans, nuts, and seeds.

Note: Go to our Autoimmune Protocol (AIP) & Autoimmune Diseases Nutritional Program web page for more information.

Step 4: Perform home testing if available and applicable to your disease, e.g. blood pressure testing, glucose testing, weight, etc.

In addition, use a journal/logbook to record, track, analyze and make corrective changes, especially to what you’re eating and how you feel after eating. This is critical to customizing the program to your body's physiology so that you can rebalance  your immune system and reverse your autoimmune disease.

Step 5: Exercise consistently by stretching/walking 30 to 45 minutes four to six times a week. And, add 10 to 15 minutes of weight/resistance (anaerobics) exercise on alternate days. However, don't over do it! Too much exercise can cause a flare with some autoimmune diseases. Try Pilates, yoga, Tai chi. 

Step 6: Perform cleansing/detoxification periodically to remove the toxins and waste that have accumulated in your cells and tissues in order to help repair your cells and stop the progression of your disease.

Since toxins (from food, water, drugs, vaccines, etc.) are one of the major triggers for autoimmune diseases, this is a key step to reverse your autoimmune disease and rebalance your immune system. 

Step 7: Take specific wholefood-based nutritional supplements to complement your nutritional program and accelerate the body’s healing process.

Make sure that you avoid synthetic supplements! Synthetic supplements and even some so-called "natural" supplements contain additives, fillers, and other chemicals that can actually trigger an autoimmune response!

Note: Go to our AIP & Autoimmune Diseases Nutritional Program and Nutritional Supplementation web pages for more information.

Step 8: Visit your doctor and get regular physical exams and blood tests. Get all the necessary blood tests and panel testing, based on your specific disease.

This is critical because a correct diagnosis will go a long way in solving the problem. If there is a misdiagnosis, you end up spending all your energy on trying to solve the wrong problem! This will only lead to more frustration and anxiety. A proper diagnosis is key!

If your doctor resists in providing the necessary testing, then, contact a reputable online medical laboratory to get the necessary testing.

Avoid the flu vaccine and other vaccines that may trigger an autoimmune response and create a Th1-Th2 imbalance with your immune system.

FYI: Live vaccines trigger a Th1 imbalance while killed vaccines trigger a Th2 imbalance. Live vaccines may provide a permanent immunity but require a strong immune system to handle the liver virus. Killed vaccines don't require as strong of an immune system but the (humoral) immunity is only temporary.

Work with your medical doctor, naturopathic doctor, functional medicine doctor, health coach and other healthcare professionals to communicate your health goals and build your relationships. Ensure your treatment is focused on repairing your body and reducing your drug usage/dependency and not just suppressing the symptoms. 

Step 9: Obtain emotional support by connecting with your inner spirit and building your support team. Utilize exercise, prayer, yoga, other meditation techniques to relax and help relieve the stress. Make sure that you get enough sleep.  Connect with others.

Find some quiet time for yourself each day, even if it’s only 5 minutes. Join a local support group to get information and share your problems with others. Your insight may help someone in the group and will motivate you to continue making progress.

Step 10: Develop an overall (proactive) wellness plan to provide the necessary structure and guidance to help reverse your autoimmune disease and rebalance your immune system.

Because most autoimmune diseases are difficult to diagnose and manage, it is critical that you have some structure and organization around a disease that creates a lot of internal and external chaos.

This is where the DTD Autoimmune Diseases Wellness Program comes into play. It is the only program that we are aware of that actually provides a structured wellness model of 10 steps and a structured nutritional model that defines your nutrition guidelines in one diagram! (Of course, there are exceptions -- that's why keeping a food journal is so important).

In addition to helping reverse your autoimmune disease and rebalance your immune system, the DTD Autoimmune Diseases Wellness Program will improve your overall health and save you and your family years of anxiety, fear and frustration as well as hundreds of thousands of dollars in unnecessary medical costs.

If possible, work with a naturopathic doctor, functional medicine doctor and/or qualified health coach to help you with your wellness planning. 

Note: These steps are not meant to be performed in this particular order. The sequence of steps will vary from person from person, based on when and how you acquired the disease. Except for Step 8 (Doctor Visits), most of these steps should be performed on a daily basis for the most part.

Interesting Observation: Obviously, what you eat is key to reverse and defeat your autoimmune disease. If you look closely at the 10 steps, you'll see that at least half of the 10 steps are directly or indirectly related to nutrition, food, detox, and supplementation.

If you have an autoimmune disease, I don't have to tell you that you need to stop the progression of the disease before it takes its toll physically and emotionally.

You need a diet, actually a nutritional program that will actually work and stop the progression while calming and rebalancing your immune system!

The DTD Autoimmune Protocol (AIP) & Autoimmune Diseases Nutritional Program is that program.

In order to successfully fight and defeat this disease, you need a powerful macronutrient and micronutrient dense nutritional protocol that will stop the progress of your disease at the cellular level.

You need a nutritional program that is science-based and is not the latest fad diet in a long line of failed fad diets.

You need a nutritional program that provides "max coverage" and addresses more than the symptoms by addressing the 7 major biological root causes of your autoimmune disease: inflammation, oxidation, toxicity, hormonal imbalance, immune dysregulation, nutrient deficiencies, and cell communications.

Note: I suspect that you haven't heard the term "max coverage" in association with a nutritional program. Make sure that whatever program you're using that you have "max coverage" with a complete nutrient profile. 

You need a nutritional program that provides the structure (e.g. diagram model) and guidance (steps) to make it easy and straightforward to implement.

That program is the DTD AIP & Autoimmune Diseases Nutritional Program

As you can see from the diagram (below), the DTD AIP & Autoimmune Diseases Nutritional Program identifies 4 key elements:

(1) The super foods that you should eat.

(2) The "trigger" foods ("dead" foods) that you should avoid.

(3) The key nutritional supplements that you require.

(4) The super food immune modulators and Th1/Th2 compounds to help customize the program to your specific needs and to rebalance your immune system.

These four key elements of this nutritional program will help to address the root causes of your autoimmune disease and the biological processes that fuel this disease, e.g. inflammation, oxidation, toxicity, dysregulation, hormonal imbalance.

This program will also help Type 2 diabetics, since this program includes key elements of the very successful Death to Diabetes Nutritional Program.

The DTD AIP & Autoimmune Disease Nutritional Program is a comprehensive nutritional program that is flexible and customizable.

It is critical that the nutritional program be customizable because there is no one single nutritional program or diet that can meet the needs of every person with an autoimmune disease! Everyone responds differently to specific foods, supplements and herbs; also, everyone's experience with a specific autoimmune disease is different.

As a result, we have designed the DTD AIP & Autoimmune Disease Nutritional Program to address these issues and provide a customizable approach to modulating and rebalancing your immune system.

This nutritional program identifies the key super foods (or "allowable" foods) to eat, such as green vegetables and plant oils such as extra virgin olive oil and coconut oil.

This nutritional program identifies the "trigger" foods (aka "dead" foods) to avoid, such as sugar, flour, wheat, gluten and lectins.

This nutritional program identifies additional "trigger" foods that are traditionally "healthy" foods for most people. For example, most diabetics are able to eat nuts and seeds, which help with blood glucose control. However, if you also have an autoimmune disease, you may have to avoid most nuts and seeds or eat them in very small quantities.

This nutritional program identifies the key supplements, such as anti-inflammatories, antioxidants, probiotics, and detoxifiers that are required to close the nutritional gap and support the immune system.

This nutritional program identifies the immune system modulators, such as extra virgin coconut oil and magnesium that help to rebalance the immune response.

And, finally, this nutritional program identifies the Th1/Th2 stimulators/suppressors to stimulate or suppress the immune response, depending on whether you are Th1 or Th2 dominant.

The Th1/Th2 stimulators are specific foods and compounds that over-stimulate or suppress your immune system, such as echinacea (a Th1 stimulator) and green tea extract (a Th2 stimulator).

FYI: The DTD Autoimmune Protocol (AIP) & Autoimmune Diseases Nutritional Program was originally developed for our diabetes clients who had a diabetes-related autoimmune disease, e.g. Type 1 diabetes, Type 1.5 diabetes. Then, because some of our Type 2 diabetes clients had thyroid issues, we expanded the nutritional protocol to address thyroid-related disorders and diseases. Then, because of so many requests, we expanded the nutritional protocol to include other common autoimmune diseases.  

The DTD Autoimmune Protocol (AIP) & Autoimmune Diseases Nutritional Program is very effective because it is specifically designed to address the root causes and biological processes that fuel most autoimmune diseases, including cellular inflammation, excess oxidation, heavy metal toxicity, leaky gut, and immune system imbalance.

For example, anti-inflammatory foods such as green vegetables, raw vegetable juices, cold-water fish, and plant oils will reduce inflammation. Not only can they soothe the over-active and misguided immune system, but natural anti-inflammatories can also help to restore the body’s self-healing mechanisms and natural balance.

The DTD AIP & Autoimmune Diseases Nutritional Program provides an array of vitamins, minerals, antioxidants, essential fatty acids, and amino acids in order for the immune system to function normally. Micronutrient deficiencies and imbalances are key players in the development and progression of autoimmune disease.

Focusing on consuming the most nutrient-dense foods available enables a synergistic surplus of micronutrients to correct both deficiencies and imbalances, thus supporting regulation of the immune system, hormone systems, detoxification systems, and neurotransmitter production. This nutrient-dense diet further provides the building blocks that the body needs to heal damaged tissues.

Since leaky gut is a key facilitator in the development of autoimmune disease, this nutritional program supports the growth of healthy levels and a healthy variety of gut microorganisms. Foods that irritate or damage the lining of the gut are avoided, while foods and supplements that help restore gut barrier function and promote healing are endorsed.

This nutritional program regulates a variety of hormones that interact with the immune system. When dietary factors (like eating too much sugar or grazing rather than eating larger meals spaced farther apart) dysregulate these hormones, the immune system is directly affected (typically stimulated). Our nutritional program is designed to promote regulation of these hormones, thereby regulating the immune system by proxy.

These and other essential hormones that impact the immune system are also profoundly affected by how much sleep we get, how much time we spend outside, how much and what kinds of activity we get, and how well we reduce and manage stress.

In the end, this nutritional program helps to regulate the immune system. Immune system regulation is achieved by restoring a healthy diversity and healthy amounts of gut microorganisms, restoring the barrier function of the gut, providing sufficient amounts of the micronutrients required for the immune system to function normally, and regulating the key hormones that in turn regulate the immune system.

The following diagrams provide an overview of the DTD Autoimmune Protocol (AIP) & Autoimmune Diseases Nutritional Program and its structure.

The purpose of the first diagram is to give you a high level overview of the DTD Autoimmune Protocol (AIP) Autoimmune Diseases Nutritional Program and its major components.

The key elements of the nutritional program includes the specific super foods to eat, the specific trigger foods to avoid eating, the key nutritional supplements, the immune modulators, the Th1 stimulating compounds, and the Th2 stimulating compounds.

Note: Some of the specific nutritional strategies are explained on the DTD Autoimmune Protocol (AIP) & Autoimmune Diseases Nutritional Program web page and in the Autoimmune Diseases ebook.


Based on the DTD Autoimmune Protocol (AIP) & Autoimmune Diseases Nutritional Program, the following nutritional strategies are designed to address inflammation, candida, and gut health associated with the specific autoimmune disease and to help calm, rebalance and strengthen the immune system.

These health goals can be accomplished through nutritional and lifestyle changes, but herbal supplements can help to accelerate the process. 

There are many natural remedies that offer an alternative to conventional anti-inflammatory medications, especially anti-inflammatory and antioxidant-rich foods such as green vegetables, bright-colored vegetables, raw vegetable juices, bone broth,  cold-water fish, garlic, and plant oils.

Not only can they soothe the over-active and misguided immune system, but natural anti-inflammatories can also help to restore the body’s self-healing mechanisms and natural balance.

When suffering with an autoimmune disease it is imperative to eat foods that aid and support the immune system. Foods that contain vitamin E and C are crucial for proper immune functioning, such as aloe vera, blueberries, bell peppers, oranges, papaya, and guava.

It is even more important to modulate and rebalance an over-active immune system. Why? Because immune system modulation helps to balance or modulate the immune system response instead of boosting or over-activating an immune response.

When you have an autoimmune disease, you do not want your immune system over-responding and attacking your healthy cells!

Ideally, immune modulation means having an aggressive immune system available for pathogens and foreign cells to be destroyed (i.e. cancer) but also turning off and not hyper-reacting to commonly occurring foods, allergies, environmental organisms and chemicals to prevent these cells from attacking healthy tissues. Immune modulation is all about balance, coordination and not over-reacting.

Examples of immune modulators include aloe vera, curucmin, blackseed oil, Vitamin D3, and magnesium-rich foods (i.e. spinach, black beans, kefir, raw almonds, raw pumpkin seeds).

Eat foods that help fight most autoimmune diseases (especially leaky gut) including: fermented vegetables, wheat grass, bone broth, extra virgin coconut oil, chlorella, spirulina, and unprocessed cod liver oil.

Also, eat herbs and foods and use compounds with antiviral properties such as licorice root, astragalus; garlic, onions, lemons, turmeric, extra virgin coconut oil, and medicinal mushrooms (i.e. reishi, shiitake, maitake); echinacea*; and colloidal silver. This, along with detoxing, will further help your immune system, especially if the primary root cause of your autoimmune dysfunction is virus/bacteria/ infection-related.

In addition, eat foods, herbs and compounds (such as aloe vera, bentonite clay, cilantro, chlorella/spirulina, milk thistle, silica) that help to detox and remove heavy metals such as mercury and aluminum. These heavy metals are well-documented as neural toxins that affect the brain and nerves, leading to diseases such as multiple sclerosis (MS), Alzheimer's and Guillain-Barré Syndrome (GBS).

*Please Note: However, if you have an autoimmune disease, be careful with herbs such as echinacea, which may over-stimulate the Th1-Th2 pathway of theimmune system and trigger an over-response with increased inflammation.

It is also important to avoid the "trigger" foods, drugs, toxins, and chemicals that may trigger autoimmune dysfunction and damage the healthy cells, e.g. white flour (alloxan), wheat, gluten, grains, cow's milk, most dairy, vegetable oils, canola oil, legumes/nuts, some diabetic drugs, and possibly other OTC/prescription drugs.

Nutritional supplements that can help to fight most autoimmune diseases (especially leaky gut) include: l-glutamine, magnesium, probiotics, MSM, alpha lipoic acid, Vitamin D3, CoQ10, collagen protein powder, systemic enzymes, and digestive enzymes (see below for more details).

Use raw juicing and green smoothies to infuse your body with key nutrients that will help to strengthen, modulate and rebalance your immune system.

Perform a periodic cleanse and detox to help remove accumulated toxins within your cells that may contribute to oxidative stress and chronic inflammation.

Use herbs such as sarsaparilla and yarrow, which can be used to detoxify the bloodstream. These herbs are able to cleanse the blood and act as natural anti-inflammatories for muscles and joints.

Other herbs that are effective for treating the symptoms of autoimmune disorders include Boswellia, Devil’s Claw, ginger and turmeric.

Herbs such as yucca can reduce muscle pain and stiffness, and if used as a shampoo, may help those who suffer from skin disorders.

Just make sure that the herbs are organic and don't conflict with any medications that you may be taking -- always consult with your physician and a naturopathic doctor if possible.

Tissue salts and homeopathic ingredients are also highly effective aids to restoring balance, health and vitality, as they do not over-stimulate the immune system. They are nutraceuticals (nutritional substances), which can help to relieve the symptoms associated with autoimmune diseases and improve functioning.

Ingredients such as Natrium sulphate, Kalium phosphate and Natrium phosphate can optimize the nervous system and lift the mood. Consult your physician, herbalist or homeopath about the best treatment for your needs.

Now that you know what to eat and what not to eat (as defined in the Nutritional Program flow chart), you need a methodology or tool to help you design your meals in order to provide a balance of macronutrients and micronutrients.

As a starting point, we used the Death to Diabetes Super Meal Plate (from the Death to Diabetes book) as a guide. It provides a balance of macro and micronutrients to nourish your cells and tissues while helping to calm and rebalance your immune system.

Based on autoimmune disease pathology, cell biology and nutritional science, we modified the DTD Super Meal Plate to align with and support autoimmune diseases and their root causes.

As depicted in the diagram (below) of the new Super Meal Plate for the Autoimmune Protocol (AIP) & Autoimmune Diseases, your meals should include a balance of healthy carbs (vegetables, seaweed), healthy fats (extra virgin olive oil/avocado oil) and healthy proteins (wild-caught fish, grass-fed animal meat, bone broth).

As far as we know, this is the only program that includes a meal plate model to help you with your meal palnning.

Of course, there are exceptions, depending on the autoimmune disease and your specific food allergies, intolerances, and whether you are Th1 or Th2 dominant. 

Super Meal Plate for Autoimmune Diseases



Types of nutritional supplements for this nutritional program include antioxidants, anti-inflammatories, natural antibiotics, detoxifiers, digestive aids, amino acids, vitamins, and minerals.

In addition, for each specific autoimmune disease, there are different targeted supplements for each disease pathology and whether you are Th1 or Th2 dominant.

However, several supplements appear to address almost every autoimmune disease, e.g. Vitamin B-Complex, Vitamin C, Vitamin D3, Omega-3 EFAs, magnesium, selenium, probiotics, etc.

Omega-3 fatty acids are well-known for boosting the immune system. Omega -3 can be found in cold-water fish, such as salmon, tuna, and mackerel. If you don't like fish, try adding flaxseed to a green smoothie.

Garlic can be used in a number of dishes not only to add flavor, but also to stimulate infection-fighting cells. Garlic is known as nature’s antibiotic, due to its abilities to attack bacteria and virus.

Selenium-rich foods like red snapper, lobster, egg yolks, sunflower seeds and Brazil nuts all help to boost the immune system.

Note: In order for T4 to get converted to T3, an enzyme that contains selenium is necessary. As a result, a deficiency in selenium can affect this conversion process, and thus impair thyroid function. The good news is that you can obtain all of the selenium you need by consuming one ounce of raw Brazil nuts every day. If you don’t like Brazil nuts then garlic is also a good source of selenium.

Eating foods that contain the B vitamins or taking a wholefood-based Vitamin B-Complex is also important for optimal thyroid health. Like magnesium, B vitamins are important for anyone supplementing with iodine.

The reason for this is because the B Vitamins (specifically B2 and B3) help with the utilization of iodine at the cellular level. But even for those people with a thyroid condition who are not iodine deficient, it still is a good idea to take B vitamins on a daily basis.

Vitamin D is key for proper immune support on many levels. Eat foods that contain Vitamin D, such as wild salmon and egg yolks. If you take a Vitamin D supplement, make sure that it's Vitamin D3, not D2.

But, the best way to obtain Vitamin D (besides sitting out in the sun), may be cod liver oil. However, use unprocessed cod liver oil, because conventional cod liver oil is overly-processed and over-heated, destroying its key nutrients (e.g. Vitamin D, Vitamin A, Omega-3 EFAs) and replacing them with their synthetic versions.

Systemic enzymes help to build and maintain overall health and provide general support for processes such as the breakdown of excess mucus, fibrin, many toxins, allergens, and clotting factors.

Systemic enzymes have also been found to be helpful with:

  • Fibrosis conditions caused by the hard, sticky protein called fibrin.
  • Reduction of scar tissue, also made up of fibrin.
  • Cleaning the blood of cellular waste and toxins, also supporting normal liver function.
  • Promoting immune system response by helping white blood cell efficiency.
  • Managing the overgrowth of yeast, putting less stress on your liver.

Digestive enzymes (one or two capsules at the beginning of each meal) ensure that foods are fully digested, decreasing the chance that partially digested foods particles and proteins are damaging your gut wall.

Digestive enzymes help the body break down fiber (cellulase), protein (protease), carbohydrates (amylase), and fats (lipase). They do all their work in the gastrointestinal tract and can help combat common issues such as indigestion, bloating, abdominal discomfort, and gas. Many people find that they require fewer medications and antacids when their digestive enzymes are in check.

L-Glutamine is an amino acid that helps to heal the intestinal lining and improve its mucosal structure, so it is critical in healing a leaky gut. Glutamine powder is an essential amino acid supplement that is anti-inflammatory and necessary for the growth and repair of your intestinal lining. L-glutamine benefits include acting as a protector: coating your cell walls and acting as a repellent to irritants. 

Licorice Root is an adaptogenic herb that helps balance cortisol levels and improves acid production in the stomach. Licorice root supports the body’s natural processes for maintaining the mucosal lining of the stomach and duodenum. This herb is especially beneficial if someone’s leaky gut is being caused by emotional stress. 

Probiotics and fermented foods are recommended for gastrointestinal health and healthy immune system function. Probiotics are reported to normalize immune responses, inhibit chronic inflammation and improve inflammatory conditions with an autoimmune component including asthma and Crohn’s disease.

S-adenosylmethionine (SAM-e), according to the Arthritis Foundation,  is as effective as non-steroidal anti-inflammatory drugs (NSAIDs) for pain reduction and improving joint function for people with osteoarthritis and fibromyalgia

Glandulars refer to raw animal glandulars and non-glandular tissues or extracts of these tissues that are normally dried and ground; and, are used to treat problems such as adrenal fatigue, underactive/overactive thyroid, and other hormone/gland-related issues. 

Colloidal silver is not a food, but, it is a natural remedy supplement  that has antibacterial and antiviral properties, making it effective for fighting infections. However, be careful because there is a lot of poor quality colloidal silver out there. 

Organic Cannabidiol (CBD) Oils contain plant compounds and anti-inflammatory properties that may help with rebalancing the immune system and achieving homeostasis.

However, due to the numerous scams and poor quality products in the CBD oil market, make sure that the company performs independent testing and provides their lab test results on their website before you purchase anything. Also, google the product to discover any reviews from 3rd-party agencies.

FYI: Medical science has discovered that the human body does in fact have an Endocannabinoid system (ECS). The human body produces certain cannabinoids on its own. 

This is why quality CBD compounds have been shown to be an effective form of alternative treatment. The Endocannabinoid system is a group of endogenous cannabinoid receptors located in the mammalian brain, the central and peripheral nervous systems, and other organs including the liver. The ECS has two receptors for cannabinoids, called CB1 receptors and CB2 receptors.

CBD compounds specifically interact (indirectly) with the CB1 and CB2 receptors that send signals to wake up and strengthen the immune system naturally. The boost of the immune system can help the body fight off the unhealthy cells that are weakening it in the first place.

CB1 receptors are found all around the body, but many of them are in the brain. The CB1 receptors in the brain deal with coordination and movement, pain, emotions and mood, thinking, appetite, and memories, among others. THC attaches to these receptors.

CB2 receptors are more common in the immune system. They affect inflammation and pain.

It used to be thought that CBD compounds acted on these CB1 and CB2 receptors directly, but it appears now that CBD compounds do not act on either receptor directly. Instead, it seems to influence the body to use more of its own cannabinoids.

Concerning how to use CBD, as long as you can afford it, use a combination of delivery methods to obtain the best overall benefits, e.g. tinctures, topicals, capsules, edibles, vaping, patches, etc.

Dental care: Avoid the traditional abrasive toothpastes with fluoride. Instead, use an herbal-based tooth powder or baking soda. Use a pH-balanced mouthwash to lower acidity; or, try ¼ teaspoon of baking soda dissolved in ¼ cup of warm water. If possible, avoid mercury-filled tooth fillings and use a green food such as chlorella to help remove mercury from your body.

In addition to an effective nutritional strategy, there are other lifestyle changes that may help with treating most autoimmune diseases.

Exercise on a consistent basis. Try to get regular physical exercise on a daily basis, but be careful not to overdo it. Talk with your doctor or healthcare provider about what types of physical activity you can do.

A gradual and gentle exercise program often works well for people with long-lasting muscle and joint pain. Some types of yoga or Tai chi exercises may be helpful.

Get sleep and rest. Make sure that you're getting at least 7-8 hours of sleep. But, it's not just about the number of hours -- it's also about the quality of sleep. For example, if you are able to get a deep sleep, your body goes into REM, which allows the body to repair and heal itself while you're sleeping.

Get enough rest and learn how to relax. Rest and relaxation allow you to destress and not get too wound up during the day. If we're too wound up, we tend to come home and have an alcoholic beverage to wind down or we eat a comfort food like mac 'n cheese or ice cream to soothe ourselves. But, this is problematic, because it usually leads to addictive habits, insomnia and poor health.

Reduce stress. Stress and anxiety can trigger symptoms to flare up with some autoimmune diseases. So finding ways to simplify your life and cope with daily stressors will help you to feel your best.

Meditation, prayer, and listening to soft music are simple relaxation techniques that might help you to reduce stress, lessen your pain, and deal with other aspects of living with your disease.

You can learn to do these through self-help books, tapes, or with the help of an instructor. Joining a support group or talking with a counselor might also help you to manage your stress and cope with your disease.

Note: If you have an autoimmune disease such as Type 1 diabetes, get the How to Treat Autoimmune Diseases Naturally ebook. It addresses Type 1 diabetes as well as other autoimmune diseases including:
-- Addison's disease
-- Celiac disease
-- Guillain-Barré Syndrome (GBS)
-- Graves disease
-- Hashimoto's Thyroiditis
-- Lupus
-- Multiple sclerosis
-- Rheumatic disease (incl. Rheumatoid arthritis)
-- Sjögren’s syndrome

One of the key components or goals of the DTD Autoimmune Diseases Wellness Program is to help the immune system achieve balance.

As depicted in the diagram (below), an over-reaction by the immune system leads to an autoimmune disease or an allergy. If the immune system under-reacts, then, this can lead to an infection or something more serious such as cancer or TB.


The immune system has three ways of dealing with bacteria, viruses and other foreign pathogens.

The innate immunity system uses macrophages, neutrophils and other phagocytes to eat and digest bacteria, viruses and other foreign pathogens

The humoral immunity or antibody-mediated immunity system uses B-lymphocytes (B cells) to synthesize specific antibodies called immunoglobulins to tag or attack various antigen-specific pathogens.

The cell-mediated immunity system involves T-lymphocytes (T cells), which regulate the synthesis of antibodies as well as direct killer cell activity and the inflammatory response of delayed type hypersensitivity against invading pathogens.

The T-cells are further divided into helper lymphocytes (Th) and cytotoxic cells (Tc), also known as suppressor cells. Tc cells are also known as CD8 T cells.

When the T-cells encounter a foreign pathogen (antigen) they further secrete a number of communication molecules called lymphokines, cytokines, interleukins or interferons. These factors further elaborate and direct the immune response to a specific antigen.

The T-helper cells are directly involved in assisting B-cells as well as coordinating their own cell-specific defense. Th cells are also known as CD4 T cells.

Th1 and Th2 Portions of the Immune System:
The T-helper cells are further divided into two distinct lines of defense.

The Th1 cells promote the cell-mediated line of defense and inhibit the other line known as Th2 cells, which regulate the humoral defense.

The Th2 cell lines control the B-cells and inhibit the cell-mediated response of the Th1 lymphocytes. A careful balance between these two functions is achieved and must be maintained for a properly coordinated immune response.

In addition, some of the T-helper cells become Th17 and Treg cells, along with several others, e.g. Th3, Th22, etc.


However, we will primarily focus on Th1 and Th2 cells; and, Th17 and Treg cells.

The key to a healthy and effective immune system is the balance and coordination of the T-helper (Th) cells, specifically the Th1 and Th2 cells, along with the Th17 and Treg cells during an immune response.

Th1 Cells: are called “cell mediated” immunity, which typically deals with viral and gram-negative bacterial infections. This is the first line of defense against pathogens that get inside of our cells. This is called the body's innate immune response. This consists of Killer T cells, T helper cells and T suppressor cells. It is also supported by cytokines such as Interleukin-2 (IL-2), IL-12, gamma interferon, IgA and sIgA.

Th2 Cells: are responsible for the “humoral-mediated” immune response. This system stimulates the production of antibodies in response to pathogens found outside the cells. This is called the body' acquired immune response. This system is supported by cytokines IL 4,5,6, 10 and alpha interferon.

FYI: In addition, there are other T cells that may affect the balance of the immune system, including the Th17 cells and Treg cells.

Th17 cells (when in abundance) have been associated with autoimmune conditions such as psoriasis, autoimmune uveitis, juvenile diabetes, rheumatoid arthritis, and Crohn's disease.

Treg cells inhibit the activation of Th1, Th2 cells and Cytotoxic T Lymphocytes (CTLs) that are required for cell-mediated immunity, inflammation and antibody production. In other words, in most cases, Treg cells help to regulate and suppress an autoimmune response! 

Immune System Th1-Th2 Balance for Autoimmune Diseases

T lymphocytes activate and regulate the immune system by making cytokines, which are chemical signals that tell other cells in the immune system what to do.

Of all the types of cells in the body, T Helper cells are considered to be the biggest producers of these cytokines. There are several types of T helper cells, but, there are two main types: Th1 cells and Th2 cells.

Th1 cells work to eliminate invaders that occur inside our cells (viruses and some intracellular bacteria). Th2 cells aim to destroy pathogens that occur outside our cells (bacteria and parasites). Th1 cells and Th2 cells each create different cytokines which trigger different effects in the body.

Ideally, you want your immune system to provide a coordinated and balanced attack as demonstrated in the following diagram,using a "seesaw" as an analogy.

Th1-Th2 Immune System Balance: How to Treat Autoimmune Diseases Naturally Without Drugs


However, if the immune system becomes overly active, it may over react to an invading pathogen or toxin in the blood.

As depicted in the following "seesaw" diagram, this can lead to the Th1 cells dominating the attack, which can lead to a specific organ-targeted autoimmune disease such as Hashimoto's Thyroiditis or Type 1 diabetes.

On the other side of the "seesaw", this can lead to the Th2 cells dominating the attack, which can lead to systems-oriented autoimmune disease such as Celiac disease or Chronic Fatigue Syndrome (CFS).


Why is this important?

A healthy immune system can “choose” which types of cells to produce and can easily switch back and forth between Th1 and Th2-type responses. An unhealthy immune system can get “stuck” in one of these responses – leading to excessive production of only one type of cytokines.

Some people get “stuck” in a Th2 dominant response because their bodies are not exposed to as many parasites and bacteria as in the past (thanks to Lysol, toilets, and water sanitation systems).

An immune system without an invader to fight will start attacking anything it can – pollen, food particles, dust, dander, etc. When Th2 becomes switched on, it activates immune cells called eosinophils and IgE-type reactions which leads to the symptoms we recognize as “allergies”. For some people this can become severe, leading to food allergies, asthma, eczema, and anaphylactic reactions.

On the other hand, some people get "stuck" in a Th1 dominant response. If Th1 is always switched on, it activates macrophages, neutrophils and other immune cells to over-respond to a food particle, medication, toxin, infection, etc. and can develop into an autoimmune disease such as Hashimoto's Thyroiditis, lupus or MS.

Much of the balancing of the Th1/Th2 response occurs in early infancy for most of us and in pregnancy for some women. Once the immune system gets “stuck” in Th1 or Th2, we have a much more difficult time correcting it.

More specifically, when we have too many T suppressor cells our immune system is too weak and we get colds, fevers, flu, TB, cancer, etc.

When there are too many Killer T cells or there are too little T helpers and T suppressors, we end up with a poorly coordinated immune response that damages our own tissue, causing an autoimmune disorder.

So, when one line predominates, there is the opportunity for immune dysregulation to occur, resulting in either a hypo-immune response resulting in an allergy, infection, cold, tuberculosis, cancer, etc. or a hyper-immune response causing an autoimmune disease.

Scenario Example: Here is a simple scenario that describes how these immune cells function to protect us and try to maintain a balanced immune response:

Let’s say you cut yourself with a dirty knife. Bacteria penetrate your skin, engaging a first line of defense from your immune system called a macrophage (picture Pac Man).

Macrophages are like big, fat security guards wielding tiny billy clubs –- ineffective, but they’ll slow an invader down while they call on more sophisticated security guards by sending out chemical signals (cytokines).

When confronted with an invader, macrophages call on their friends, the T helper (Th) cells. The Th cells tell the entire immune system through a series of chemical signals that there has been an invader that has crossed the barrier.

Specifically, the Th cells call directly on two types of cells, cytotoxic T cells (Tc) and natural killer cells (NK), both soldiers with muscle that live up to their name and help attack and kill the bacterial invaders.

Once the bacteria have been killed, it is time for the immune system to call off the attack, which is the job of the T regulatory cells (Tregs) or suppressor cells, who “suppress” the fight.

In the event that the bacteria is too powerful for the T cells, or if the T cells have a difficult time finding the invader, as in the case of a virus, the B cells are called to join in the fight.

B cells make antibodies for a given invader based on instructions from the T helper cells.

In other words, if the T helper cells (Th) tell the immune system that the invader is a guy wearing a red sweater, the B cells will create antibodies for a guy in a red sweater, so that when they meet him, they can latch onto him and wave a flag, making it easier for the cytotoxic T cells (Tc) and natural killer cells (NK) to find the invader.

But here’s what you really need to know:
The initial T cell response is called a “Th1 response”. The secondary B cell antibody response is called a “Th2 response”.

In a healthy body, there is balance between the Th1 (T cell) and Th2 (B cell) parts of our immune system. And that’s the desirable state.

If there is a dominant response from either Th1 or Th2, this will trigger inflammation and cause a flare; and, over time can lead to allergies or an autoimmune disease

So, how do we address this? Unfortunately, until recently, most of us either went to the doctor or the local drugstore to get a specific medication. For example, if we had an allergy, we went to the drugstore for an OTC drug such as Claritin or Allegra. If we had an autoimmune disease, we went to the doctor to get some kind of drug that would suppress the immune system or reduce the symptoms.

However, most of us have come to realize that drugs are not the best answer, especially given some of the side effects that can affect the heart, liver and other organs.

This is one of the reasons why natural remedies (e.g. super foods, herbs, supplements) are more in demand. In addition, natural remedies can help to balance the Th1/Th2 ratio without the side effects. The only downside is that it takes time and patience for this to work. So, it is very important to stick with the program to reap the benefits!

The first step to determine whether your immune system is Th1 or Th2 dominant. Usually your doctor will give you a blood test to check for antibodies; and, then, prescribe a medication that suppresses your immune system.

Instead, you should request tests for Th1/Th2 cytokines, CD4/CD8 ratio panel, and Vitamin D. If your doctor resists, you can order these tests from an online laboratory.

Here is some additional information about Th1 and Th2 dominant conditions and why it's important to understand which one you are dominant. 

TH1 Dominant Conditions:
Auto-immune conditions are typically related to overactive cellular immunity and weakened Th2 humoral immune response. Th1 dominant individuals rarely ever develop cancer but are unable to handle parasites and they develop chronic autoimmune conditions.

Th1 Dominance typically occurs with extreme vitamin D deficiencies along with an immune assault such as a vaccine injury or chronic pathogen that irritates the immune system. These individuals typically have food intolerances to gluten and pasteurized dairy among other things.

TH2 Dominant Conditions:
Allergic conditions are typically related to weakened cellular (Th1) immunity and overactive TH2 responses. This can be related to a  vaccine injury and overuse of antibiotics. Individuals who are Th2 dominant will over respond to environmental toxins, allergens, normal bacteria and parasites. Th2 dominant individuals will under-respond to viruses, yeast, cancer cell formation and intracellular bacteria.

When the TH2 system is dominant the body tends to rely on it when it is threatened in anyway. A common example is allergies. When we are exposed to the allergen the TH2 system goes into overdrive causing a massive inflammatory response. This is due to poor balance between the TH1/TH2 system and then a poorly coordinated TH2 response that creates a systemic inflammatory reaction in response to a very minor threat.

Certain herbs are known to stimulate the TH1 response while others stimulate the TH-2 pathway and a third group helps to balance and coordinate both pathways. This explains how one individual can take Echinacea and feel terrible while others see an immediate boost in their immune function.

It explains why one individual can do great with coffee and green tea while others do awful with these TH2 boosting stimulants.

In addition, based on new research, there are other T helper cells that must also work together, e.g. Th17, Treg, Th22.

In the following square model, the 4 T-cell types (Th1, Th2, Th17, and Treg) antagonize each other.

Th1 cytokines are inhibitory to Th2-cell development, whereas the Th2 cytokines block Th1-cell development. Th1 cytokines block Th17-cell development, while Treg inhibits the development of both Th1 and Th2 cells by direct contact.

Limitations of Th1-Th2 Model
Eating habits, environmental factors and genetics will determine the balance of Th1 and Th2 for most of us. Although a balanced seesaw is optimal, some people will have Th1 or Th2 dominance even when there is no pathogen around.

The nutritional, environmental and genetic influences are what make people so variable in how they respond to pathogens. This is one reason why some people suffer allergies or some are constantly getting sick, all while others go years without even getting a cold.

Based on in vitro studies and other studies with mice, rarely do immune responses fall exclusively into a Th1 or Th2 response. For example, a person with a Th1-dominant condition such as Hashimoto's Thyroiditis also has a Th2-dominant condition such as Chronic Fatigue Syndrome. So, is the person Th1 or Th2 dominant?

Another example: The immune system of a woman who is pregnant shifts to Th2-dominance in order to protect the fetus. But, let's say that woman develops a Th1-dominant disease such as Hashimoto's Thyroiditis or Type 1 diabetes during her pregnancy. When the pregnancy ends, her immune system shifts back and is no longer Th2-dominant. Is she Th1 or Th2 dominant?

Pregnancy and the Th1-Th2 Imbalance

An imbalanced immune system is not always a bad thing. For example, when a woman becomes pregnant, her immune system shifts to Th2 to protect the fetus. If she remained in Th1, the Th1 immune cells especially the cytotoxic T natural killers would attack and kill the fetus.

Once the baby is born, the woman usually shifts back to Th1 -- unless there were some complications or another health problem that could cause her to get "stuck" in Th2. Also, if the woman had a weak immune system, when she did return to Th1, this could make her susceptible to various other diseases.

Immune System Th1-Th2-Th17-Treg Balance 


Consequently, as you can see, you need a flexible and customizable nutritional strategy (such as the DTD Autoimmune Diseases Nutritional Program) that will allow you to get your immune system under control and back in balance, based on whether you are Th1 or Th2 dominant.

By using compounds that are known to modulate the balance between Th1 and Th2, the autoimmune attack is lessened and the body is able to function closer to normal.

For more details, refer to Chapters 3 and 4 of the How to Treat Autoimmune Diseases Naturally ebook.

The Immune System: Levels of Defense

Note: The following diagrams provide a high level overview of the immune system, its components and how it operates.

This diagram shows that the immune system consists of 3 lines of defense: the skin, white blood cells close to the skin (e.g.  macrophages), and specialized white blood cells (e.g. B and T cells).


As depicted in the following diagrams, your immune system is divided into two different types of immunity: Innate Immunity and Adaptive Immunity . 

Innate Immunity is something already present in the body. As soon as something enters the skin, blood, or tissues, the immune system immediately goes into attack mode and provides a rapid response.

It does this by identifying certain chemicals in the substance that tells the innate response it shouldn’t be there. One example would be white blood cells fighting bacteria, causing redness and swelling, when you have a cut.

Adaptive Immunity consists of cell-mediated and antibody-mediated immunity. Adaptive Immunity is created in response to exposure to a foreign substance. When a foreign invader enters the body, the immune system takes it in and analyzes its every detail. Then the adaptive immune response organizes cells to attach that foreign substance every time they enter the body.

The adaptive immune cells actually have a memory and know how to fight off certain invaders. One example is the chickenpox vaccination so that we don’t get chickenpox because adaptive immunity system has remembered the foreign body. 

Immune System: Innate & Adaptive Immunity

Immune System Cells

The following chart provides a list of the major immune cells within the immune system.

The first box identifies the major immune cells (lymphocytes) in the adaptive immune system, particularly the B and T cells.

The other boxes identify the major immune cells involved in the innate immune system, particularly, the macrophages, dendritic cells, neutrophils, and natural killers.

The following diagram depicts how the immune system operates, in performing three keys functions: (1) to protect the body from invading pathogens; (2) to help repair and heal damaged cells and tissues; and, (3) coordinate and balance the immune response between the Th1 and Th2 immune cells and between the immune system and your healthy cells.

Immune System: Functional Operation

FYI: Most people are aware that the immune system protects us from colds and the flu (invading bacteria, viruses and pathogens). However, most people are not aware that the immune system has two other major roles: initiating the body's repair and healing processes; and, coordinating and balancing the immune response.

This is one of the reasons why the Death to Diabetes Wellness Program emphasizes the importance of a strong and balanced immune system when fighting a disease like Type 2 diabetes, or any disease for that matter.

Based on the success of the Death to Diabetes Wellness Program for Type 2 diabetics, it was used as the basis for developing a nutritional program for Type 1 diabetes, an autoimmune disease.

In addition, because many of our clients were struggling with thyroid issues, this nutritional program was expanded to address thyroid problems. Then, it was expanded to address PCOS, MS, and lupus to support our clients.

Eventually, that led to the creation of the DTD AIP & Autoimmune Diseases Nutritional Program. This program identifies the super foods to eat, the trigger foods to avoid, the key supplements, and the immune modulators in order to address most autoimmune diseases.  In addition, the nutritional program identifies the Th1/Th2 stimulators and suppressors.

When most of us acquire a disease, it usually weakens the immune system. This creates two additional health problems: (1) the inability to defend the body against colds, flu, allergies, infections, etc.; and, (2) the inability to repair and heal the damaged cells and tissues. This, in turn, allows the disease to progress and cause even more damage.

The DTD Autoimmune Diseases Wellness Program and AIP Nutritional Program address these additional problems.

Immune System Operation at the Cellular Level

For those of you who are really into science, here is a   deeper view of how the immune system operates at the cellular level.


When a pathogen invades the body, it usually enters via the eyes, nose, mouth or an open wound in the skin. When the pathogen attacks the epithelial cells of the nose, mouth or skin, the Innate Immunity System is engaged first by immune cells such as macrophages, neutrophils and natural killer cells.

These immune cells (called phagocytes) eat (absorb) the pathogens via a process called endocytosis and digest the pathogens. The natural killer (NK) cells kill the pathogen by injecting an enzyme into the infected cell via a process called lysis.

If the pathogen is strong and begins to multiply and infect the epithelial cells and other tissues, the macrophages will send out signals (cytokines) to recruit other immune cells.

In most cases, the initial cells that are recruited are the neutrophils, who are known as the "first-responders". They digest and destroy the pathogens to prevent more infection and prevent the infection from spreading. 

In order to obtain more help, the macrophage (after digesting the pathogen) will provide an antigen particle of the pathogen to a dendritic cell.

The dendritic cell (acting as an antigen-presenting cell or APC) will engage the T cells of the Adaptive Immunity System to activate T Helper cells (e.g. Th1) to create antigen-specific T cells to kill the pathogens.

Depending on the antigen, the dendritic cell will engage other T Helper cells (e.g. Th2) to activate B cells and plasma cells to produce antibodies (via the B cells). These antibodies are used to tag the pathogens (for destruction) and to create Memory B cells so that if the pathogen returns, it "remembers" and is able to more readily attack and killthe pathogen.

In addition, to help with tissue/cell repair, immune system cells such as monocytes, macrophages, neutrophils and basophils participate in inflammation, infection prevention, apoptosis (cell death), debris clearance, collagen production and new blood vessel generation. This helps to facilitate tissue/cell repair as part of the inflammatory response when an organ or tissue is damaged and needs to be repaired.  

MHC, Self vs. Non-Self

Have you ever wondered how the immune system cells know the difference between your own cells and the cells of an invading bacteria or other pathogen?

Well, each of our cells have a protein molecule identifier on its surface called a major histocompatibility complex molecule (MHC).

Bacteria, viruses, and other pathogens do not have this identifier marker on its surface.

So, when one of our immune cells notices that another cell does not have this identifier, it either attacks or notifies other immune cells to attack or create antibodies.  

FYI: Any substance that is recognized as foreign and is capable of triggering an immune response is called an antigen (non-self).

One of the common problems that most people with an autoimmune disease has is a leaky gut.

A leaky gut (often referred to as increased intestinal permeability), occurs when the tight junctions within the small intestine become damaged and allow bacteria, toxins, proteins (such as gluten), undigested foods particles and other chemicals to pass through into the bloodstream.

Note: If you haven't been diagnosed with an autoimmune disease, but, you feel tired or if you have a food sensitivity issue such as milk or gluten/wheat, you may have the early stages of a leaky gut.

Leaky Gut Syndrome


When this happens, the immune system assumes that your body is being attacked, so it mounts a counterattack, which can lead to food sensitivities, an allergic response, systemic inflammation, and/or an autoimmune disease. Toxic waste can also leak from the inside of your intestinal wall into your bloodstream causing an immune reaction.

As depicted in the diagram, leaky gut can be addressed and repaired with specificfoods and compounds, including vegetables, probiotics (e.g. fermented vegetables, yogurt), l-glutamine, bone broth, and key vitamins and minerals such as Vitamin D3, curcumin, quercetin, zinc,and ginger.

Just as important, "trigger" foods such as gluten, flour, wheat, grains, cow's dairy, sugar and trans fats should be avoided.

If you suspect that you have a leaky gut, then, get the author's How to Treat Autoimmune Diseases, PCOS & Thyroid Issues Naturally ebook

If you have an autoimmune disease, allergies, PCOS, or thyroid issues, we recommend that you get the author's Autoimmune Diseases and Natural Treatments book/ebook.

This book addresses how to calm and balance the immune system by identifying what foods to eat and avoid, what key supplements to take, and what immune modulators will help with Th1 dominance and Th2 dominance. This book also addresses how to repair a leaky gut.

Note: If you haven't been diagnosed with an autoimmune disease, but, you feel tired or if you have a food sensitivity issue, then, you may still have a leaky gut. In that case, you should still get the Autoimmune Diseases and Natural Treatments book/ebook.

In addition, be proactive and prevent the onset of diabetes, heart disease, and other health problems by getting the following author's books, which address inflammation, oxidation, toxic load, etc.:

You are probably asking: Why do I need all of these books?

Well, we couldn't put everything into one book! :-) Also, everyone has different symptoms and pathologies when it comes to these diseases, Consequently, you need to be able to customize our program to fit your specific health needs.

First of all, if you have an autoimmune disease, leaky gut, PCOS, thyroid issues, chronic inflammation, fatigue issues, etc. you definitely need the Autoimmune Diseases and Natural Treatments book.

if you're diabetic or dealing with insulin resistance, you need the Death to Diabetes paperback book (or ebook). This book provides the foundation of knowledge that you need to successfully manage your diabetes; and, prevent the complications of blindness, amputation, kidney dialysis, and heart attack.

Even if you have your diabetes under control, you still need this book. Why? Because you want to do more than just control your blood glucose! This book goes beyond controlling your blood glucose (Stage 4) to address of aspects of your diabetes (Stage 6), e.g. inflammation, oxidative, toxicity.

In addition, this book addresses more than just diabetes. It addresses inflammation, cardiovascular problems (high blood pressure, high cholesterol), retinopathy (eyes), neuropathy (nerves), nephropathy (kidneys), and obesity.

In order to optimize your health, you need the Power of Raw Juicing book. This book will ensure that you’re juicing with the right foods and, more importantly, it help to help repair the damage caused by the diabetes, inflammation and autoimmune diseases.

You need the Cleanse-Detox book to help remove the accumulated toxins that trigger many autoimmune diseases and fuel other diseases. Also, if you've been eating processed/dead foods and taking drugs for more than 3 years, you need to remove the associated toxins.

If you want to learn more about how to eat healthy, prepare healthy meals and snacks, go grocery shopping, do proper meal planning, etc, then, you'll need to get the 3-in-1 Death to Diabetes Cookbook.

And, if you plan to go on a raw food diet, then, you'll need to get the Raw Food Diet book or Raw Food Diet Expanded book.

The Death to Diabetes Story




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