An unhealthy gut environment can contribute to nutrient deficiencies and raise autoimmune activity in the body. Food sensitivities or allergies, including those to gluten and dairy, can trigger gut inflammation. Other causes of a damaged gut are high stress levels, toxin overload from diet and the environment and bacterial imbalances. When leaky gut occurs, small particles that are normally trapped inside the gut start to leak out into the bloodstream through tiny openings in the gut lining, which creates an autoimmune cascade and a series of negative symptoms.
Thyroid hormone replacement has been used for more than a century to treat hypothyroidism. Natural thyroid preparations (thyroid extract, desiccated thyroid, or thyroglobulin), which contain both thyroxine (T4) and triiodothyronine (T3), were the first pharmacologic treatments available and dominated the market for the better part of the 20th century. Dosages were adjusted to resolve symptoms and to normalize the basal metabolic rate and/or serum protein-bound iodine level, but thyrotoxic adverse effects were not uncommon. Two major developments in the 1970s led to a transition in clinical practice: 1) The development of the serum thyroid-stimulating hormone (TSH) radioimmunoassay led to the discovery that many patients were overtreated, resulting in a dramatic reduction in thyroid hormone replacement dosage, and 2) the identification of peripheral deiodinase-mediated T4-to-T3 conversion provided a physiologic means to justify l-thyroxine monotherapy, obviating concerns about inconsistencies with desiccated thyroid. Thereafter, l-thyroxine mono-therapy at doses to normalize the serum TSH became the standard of care. Since then, a subgroup of thyroid hormone–treated patients with residual symptoms of hypothyroidism despite normalization of the serum TSH has been identified. This has brought into question the inability of l-thyroxine monotherapy to universally normalize serum T3 levels. New research suggests mechanisms for the inadequacies of l-thyroxine monotherapy and highlights the possible role for personalized medicine based on deiodinase polymorphisms. Understanding the historical events that affected clinical practice trends provides invaluable insight into formulation of an approach to help all patients achieve clinical and biochemical euthyroidism.
"Secondary" or "tertiary" hypothyroidism occurs when the decrease in thyroid hormone is due to a defect of the pituitary gland or hypothalamus. A special test, known as the TRH test, can help distinguish if the disease is caused by a defect in the pituitary or the hypothalamus. This test requires an injection of the TRH hormone and is performed by a doctor that treats thyroid conditions (endocrinologist or hormone specialist).
Other causes of hypothyroidism include surgical removal of the thyroid (usually for cancer), radiation therapy of the head and neck, or complications of medical therapies for hyperthyroidism. (Patients with overactive thyroids are often treated with radioactive iodine or anti-thyroid medications that reduce thyroid functioning. These effects can be extensive and permanent, and thyroid supplementation is often required flowing these interventions.) Certain medications can worsen or promote hypothyroidism or interfere with thyroid replacement therapy. One such drug is lithium, used for treating psychiatric conditions such as bipolar disorder.
It is hard for me to tell you what to do without a thorough health history…but I would start by following my anti-inflammatory nutrition plan as mentioned in this article. A natural thyroid hormone replacement like Armour is typically cleaner (levo and synthroid contain GMO corn in the coloring dies) so that would be a good idea. If you would want to consult so I could learn more about your case and customize an appropriate plan for you we could arrange that. Blessings!
Cruciferous vegetables, such as broccoli and cabbage, are full of fiber and other nutrients, but they may interfere with the production of thyroid hormone if you have an iodine deficiency. So if you do, it’s a good idea to limit your intake of Brussels sprouts, cabbage, cauliflower, kale, turnips, and bok choy, because research suggests digesting these vegetables may block the thyroid's ability to utilize iodine, which is essential for normal thyroid function.
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