Hashimoto’s Thyroiditis and SET-DB™ Thyroid Protocol
This post is an overview of possible approaches for SET-DB™ practitioners who have the SET-DB™ Thyroid Protocol and care for Hashimoto’s thyroiditis patients.
Hashimoto’s thyroiditis, also called autoimmune thyroiditis, is one of the most common causes of hypothyroidism and is the most common autoimmune disease in the U.S. Studies have shown that 90% of hypothyroid patients test positive for thyroid antibodies, meaning their immune systems are primed to attack their own thyroid glands.
It’s a complex condition that can involve varied biological functions such as genetics, diet, digestion, the immune system, and thyroid function. Correcting one’s faulty genes is unlikely, but the SET-DB™ Thyroid Protocol can address digestion, the immune system, and thyroid function. Getting a patient to improve their diet, permanently, is tough, so tough I never attempted it with my fibromyalgia patients. I think a strong case can be made for diet revision with thyroid patients.
The immune system is tasked with the critical job of keeping track of “self,” our own cells, and “non-self,” foreign substances. It does this primarily by “reading” the surface proteins of cells and substances it comes in contact with. (I also believe the nervous is intimately involved in immunity—how else could SET-DB™ eliminate a sensitivity?) If the immune cell recognizes the surface protein as self it will move on. If it doesn’t, or if it has seen the foreign cell before and knows it doesn’t belong, it releases chemical messengers that initiate an immune response.
Autoimmunity is a case of mistaken identity. Antibodies are made to “self” tissues for a variety of reasons. One that we’ll discuss here is, surface proteins of a “non-self” substance looks enough like surface proteins of some “self” tissue that the immune system attacks the tissue. Besides Hashimoto’s thyroiditis, examples are multiple sclerosis, lupus, and rheumatoid arthritis.
In the case of Hashimoto’s thyroiditis, the culprit is gliadin, the protein portion of gluten. Gliadin “looks” like thyroid tissue to the immune systems of people with Hashimoto’s thyroiditis. When gliadin gets into the body, through a porous or leaky gut, the immune system does its job and tags it for destruction (makes antibodies). Those antibodies will eventually find their way to the thyroid gland where they find cells with surface proteins that look suspiciously like gliadin, and attack.
Even worse, the immune response to gluten can last up to six months. That means if one wants to know if gluten is causing hypothyroid symptoms, they’ll have to stay off it for at least six months.
Hashimoto’s thyroiditis symptoms
The symptoms of Hashimoto’s thyroiditis are typically those of hypothyroidism, such as weight gain, fatigue, hair loss, brain fog, and depression (to name a fraction of possible hypothyroid symptoms). While there are several reasons for hypothyroid symptoms, in this case they’re due to low thyroid hormone production secondary to destruction of hormone-producing cells by the immune system. Fewer cells making thyroid hormone. Because Hashimoto’s thyroiditis is progressive, eventually hypothyroid symptoms appear.
But this isn’t all. Hyperthyroid symptoms—nervousness, rapid heart rate, sweating, tremors, palpitations— may occur concurrently with hypothyroid symptoms. When the cells that store thyroid hormone get destroyed by the immune system, large amounts of stored hormones are released into the blood stream. Thus one with Hashimoto’s thyroiditis can be hyper one day and hypo a couple of days later. Quite a wild ride. Eventually the hyperthyroid symptoms will disappear, after enough thyroid cells have been destroyed, and only hypothyroid symptoms, which are getting worse, remain.
Standard medical care for Hashimoto’s thyroiditis
Doctors may not tell patients their lab tests were positive for thyroid antibodies because it doesn’t change their treatment plan. In fact, most doctors don’t order antibody tests for this same reason. The standard of care is to “monitor” the patient until enough thyroid cells are destroyed to cause hypothyroidism, then prescribe thyroid hormone, typically a synthetic T4. Once they start on thyroid medication, they typically have to take it for the rest of their life.
A few lucky patients do well on T4, but many don’t and end up taking other medications prescribed for things such as depression, high cholesterol, and blood sugar management, all possibly related to hypothyroidism.
SET-DB™ approach to Hashimoto’s thyroiditis
Hashimoto’s thyroiditis patients are treated the same as hypothyroid patients without Hashimoto’s thyroiditis, with the possible exception that the practitioner might want to pay closer attention to autoimmune categories.
Here are some important aspects of the SET-DB™ Thyroid Protocol:
Leaky Gut: A leaky gut allows undigested or incompletely digested foods to get into parts of the body they don’t belong, which can lead to more food sensitivities. Seacure is given to help heal the gut wall and eliminating sensitivities helps reduce gut inflammation. Also, an OSST can help detoxify the intestinal tract and possibly reduce or eliminate infectants like parasites and Candida.
Gluten/Gliadin: It’s my opinion that gluten-containing foods should be avoided by everyone, it’s nice that once treated with SET-DB™, one doesn’t have to worry about getting some gluten in a meal now and then. This BioSurvey doesn’t just look at gluten and gliadin. It goes deeper by looking at enzymes and fractions of gluten and gliadin. It’s a must-do treatment.
Hormones: If a patient is sensitive to a hormone it can be difficult for them to make adequate amounts of it and whatever influence the hormone should have, the reason the body makes it, it may not wield. Special attention is given to TSH, T3, T4, thyroglobulin, TRH, and rT3, but any hormone a patient is found sensitive to is put in the vial before the treatment. It is a must-do treatment.
Glands: I like to think of autoimmune treatments by using a team sports analogy. If individual team members are quarreling amongst themselves, or are otherwise unhappy with others on the team, it’s difficult for the team to have success. If an SET-DB™ autoimmune treatment could be performed on the team the effect would be near-instant harmony that could tip the scale toward success on the field. Glands important to consider here are the thyroid, anterior pituitary, hypothalamus, and adrenals. This is also a must-do treatment.
Thyroid Supplement Organ System Stress Test (OSST(: Supplementing with critical thyroid nutrients can help patients fell better sooner. This OSST just looks for one supplement. You can use the BioSurvey as-is and it will choose one of the two default supplements, or you can test for any supplements you like.
Thyroid Comprehensive BioSurvey: This BioSurvey contains items important to thyroid function not found in ZYTO’s library. It is a must-do treatment.
Other must-do treatments include grains, wheat digestion, dairy, and endocrine disrupters. The practitioner chooses five additional SETs based on the Thyroid Eval Scan or their professional judgement.
If the patient needs treatment beyond the basic protocol, the practitioner runs the Thyroid Category Scan: Advanced and formulates a new treatment plan.
If your license allows you to prescribe, you can monitor their medication yourself. If it doesn’t, you might need to communicate with the patient’s prescribing physician. Do not advise your patients in areas outside of your license; i.e., tell them to take less or more of a medication or discontinue a medication.
Your thyroid patients will likely need a change of medication as they progress through the treatment program. It’s not difficult to know when. If they’re getting too much thyroid hormone(s) they’ll start experiencing symptoms of hyperthyroidism. If they’re not getting enough, their hypothyroid symptoms worsen.
Hypothyroidism and iron deficiency have more in common than you might know or think. This brief post will examine their relationship and how SET-DB™ can help.
Hypothyroidism is a condition where:
Some of the symptoms of hypothyroidism—fatigue, cold intolerance, hair loss—are also possible symptoms of iron deficiency. Iron-deficient individuals may also experience irregular heart beat, anxiety, and restless leg syndrome.
Did you know the thyroid is closely connected to the gut? When there is adequate T3 supply to stomach cells they produce hydrochloric acid, which, among other things, helps break down protein. Most of the iron we eat (at least the most bioavailable iron) is found in animal protein. If we don’t digest the protein, we can’t get at the iron in it.
So, low T3 is tied to low stomach acid and low iron.
And, iron is an an important mineral to test for sensitivity, and treat if necessary with SET-DB™. It’s a must-do treatment in the SET-DB™ Thyroid Protocol and is found in the Minerals Category/BioSurvey.
How is low thyroid hormone availability connected to hair loss?
The answer may be ferritin. From Wikipedia:
“Ferritin is a universal intracellular protein that stores iron and releases it in a controlled fashion. The protein is produced by almost all living organisms, including algae, bacteria, higher plants, and animals. In humans, it acts as a buffer against iron deficiency and iron overload. Ferritin is found in most tissues as a cytosolic (dissolved in the cell’s cytoplasm) protein, but small amounts are secreted into the serum where it functions as an iron carrier. Plasma ferritin is also an indirect marker of the total amount of iron stored in the body, hence serum ferritin is used as a diagnostic test for iron-deficiency anemia.”
Emphasis is mine.
Here is a direct connection between ferritin and hair loss, as found on Dr. Philip Kingsley’s site:
“Correct ferritin levels maximize your hair’s ‘anagen’ or ‘growing’ phase and encourage your hairs to grow to their full length. When you aren’t getting enough iron through your diet, your body takes ferritin stored in non-essential tissue, like your hair bulb, and gives it to essential tissue, such as your heart. Because your hair bulb is where all your hair cells are produced, this leeching of ferritin can cause your hair to shed before it reaches its maximum length.
The average reference ranges for ferritin are 14-170 micrograms per litre, but our research shows that ferritin should be at least 80 ug/L (micrograms per litre) in women for hair follicles to function at their best.”
After some research on the subject, like most lab values, optimal ferritin levels for individuals can vary. One thing I did learn is ferritin can be high for reasons other than excess iron. Systemic inflammation can raise ferritin levels due to its role as an acute phase reactant that up-regulates in response to inflammation or oxidative stress.
So, if one wants to be really careful, they wouldn’t have their ferritin checked when they’re sick, or get a hs-CRP test that measures overall inflammatory status. If hs-CRP is elevated, the ferritin level may say nothing about iron status.
Furthermore, on this subject, Mark Sisson writes:
“Come to think of it, if elevated ferritin can be a marker of inflammation and oxidative stress, the inflammation could be responsible for some of the negative health effects linked to high ferritin. Or, if having too much iron in the body can increase oxidative damage, it may be that high iron levels are increasing inflammation which in turn increases ferritin even further. Biology gets messy. Lots of feedback loops.”
Biology can indeed get messy and science is still learning much about the role iron plays in the human body.
Here is Sisson's follow-up post on Iron.
As for SET-DB™ and ferritin, I couldn’t find ferritin in ZYTO’s library so I added it to the Thyroid Protocol library. It’s not yet in a BioSurvey so you’ll have to test it separately. Sorry Select owners. Eventually I’ll have it in a BioSurvey, when I figure out what else to put it with.
I wouldn’t recommend anyone start on an iron supplement or purposely increase their consumption of iron-containing foods until they’ve had their iron and ferritin tested. A complete anemia panel should include serum iron, transferrin, TIBC, and the saturation percentage.
As a side note, part of the ongoing attack on meat eating is the claim that the iron in meat promotes colon cancer. Sisson unpacks that in the post I referenced earlier, but here’s the gist of it:
The relationship between heme iron (the kind found in meat) and colon cancer is conditional on iron oxidating fatty acids in the colon. Not just any fatty acids, though. The kind found in seed oils, polyunsaturated fatty acids. In fact, studies seeking to prove that heme iron promotes colon cancer can’t get the cancer to “take” unless the lab animals are fed high-PUFA oils, like safflower oil. Feed them olive or coconut oil with the heme iron and the study can’t proceed because no cancer occurs.
Another good reason not to eat industrial seed oils, aside from their effect on the thyroid.
While researching this topic, and the thyroid in general, I took the time to read through the comments section of the posts. You should, too. It’s a real eye-opener. Skip the snark and pay attention to the ones from people who have been suffering with health problems despite improving their diet, seeing their MD (in most cases), and taking the supplements and/or medications they were told to take. Many have negative reactions to the pills and many just don’t get better.
Based on my experience, this is likely due to sensitivities to the nutrients they need to enjoy improved health, but also to all the nutrient groups as well as foods. This is where SET-DB™ can help. Clearing a sensitivity to iron or ferritin could well allow someone to better handle those substances, which could be a big part in them enjoying better thyroid health, and better health in general.
Dr. Teryl Boothe and selected guests.