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Thyroid?

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Thyroid Recovery

 

Introduction to Functional Thyroid Disorders

Functional thyroid disorders are very common and generally overlooked in today’s healthcare model. Most patients that have functional thyroid imbalances do not have primary thyroid imbalances. Thyroid metabolism is very sensitive to slight alterations in metabolism. Thyroid hormone synthesis is altered by luteal phase function, progesterone, and autoimmunity, etc. Thyroid hormone binding is influenced by essential fatty acid metabolism, testosterone, estrogen, etc. Thyroid hormone peripheral conversion is dependent on proper 5’diodinase activity and can be altered by cortisol, estrogen, hepatic dysfunction, dysbiosis, etc. Thyroid hormone receptor binding and response may be altered by inflammation, vitamin A status, and essential fatty acid levels, etc. In this section of the notes we will briefly review thyroid hormone physiology, laboratory markers for thyroid evaluation, nutrients to support the thyroid, exogenous thyroid hormone replacement, and drugs that alter thyroid metabolism.

 

Thyroid Physiology Review

Once the thyroid is stimulated by Thyroid Stimulating Hormone (TSH) from the pituitary, it produces thyroxine (T4) and triiodothyronine (T3) by transporting iodine into the thyroid and by stimulating Thyroid Peroxidase Activity (TPO). TPO is involved in the formation of T4 and T3 as it catalyzes the oxidation of iodine using hydrogen peroxide. The thyroid will produce 94% of the available T4 and 7% of the available T3. As we know, T4 is inactive and T3 is an active thyroid hormone. Therefore, the majority of hormone production at the thyroid is inactive T4. Once the thyroid has produced T4, it is metabolized peripherally from the thyroid into combination T3 hormones by the enzyme 5’ deiodinase, mostly at the liver. Under normal circumstances, about 40% of the available T4 is converted into T3, 20% is converted into reverse T3 (rT3), which is irreversibly inactive, and 20% is converted into T3 sulfate (T3S) and triiodothyroacetic acid (T3AC). T3S and T3AC are inactive thyroid hormones until they circulate into the gastrointestinal tract and are acted upon by intestinal sulfatase into active T3. Gastrointestinal sulfatase activity is dependent upon a healthy gut microflora.

 

Low Thyroid Symptoms

Fatigue

Increase in weight gain even with low-calorie diet

Morning headaches that’s wear off as the day progresses

Depression

Constipation

Hypersensitivity to cold weather

Poor circulation and numbness in hands and feet

Muscle cramps while at rest

Catches colds and other viral/bacterial problems easily and has difficulty recovering

Wounds heal slowly

Excessive amount of sleep required to function properly

Chronic digestive problems (hypochlorhydria)

Itchy dry skin

Low Thyroid Signs

 

Dry or brittle hair

Hair falls out easily

Dry skin

Low axillary temperature (this may also be caused by any endocrine imbalance)

Edema, especially facial (myxedema)

Loss of outside portion of eyebrows

Understanding Thyroid Markers and Panels

 

TSH: Thyroid Stimulating Hormone (TSH) is also called thyrotropin. The pituitary releases this hormone after the hypothalamus releases TRH (thyrotropin-releasing-hormone). This is the most common marker used to assess thyroid function and it is also the most sensitive. The TSH levels increase when the T4 levels drop, and the TSH falls when T4 levels increase. This is the only test performed in the traditional health care model as a means to screen the patient for thyroid disorders; this is because they are only concerned for screening the thyroid for hormone replacement and not optimal physiological function. A TSH test alone does not consider thyroid pituitary feedback loops, peripheral thyroid metabolism, or potential or active risk factors as identified by antibody testing. A high TSH with or without changes in T4 or T3 is diagnostic to determine hypothyroidism. If the thyroid is not making enough T4, the pituitary will pump out TSH to stimulate its production. A low TSH is used to determine hyperthyroid activity. If the thyroid is overactive such as in Grave’s disease, the antibodies bind to active thyrotropin(TSH) receptors on the thyroid cells and stimulate T4 production without the influence of TSH. Please note that some antibodies may inhibit thyroid function by inactivating instead of stimulating thyrotropin receptors. This is called an autoimmune hypothyroid. These patterns will demonstrate a hypothyroid pattern (elevated TSH) with elevated thyroid antibodies.

 

Laboratory Reference Range: 0.5 – 5.5 (varies from one lab to another)

Functional Reference Range: 1.5-3.5

 

Total Thyroxine (TT4): The TT4 test measures both bound and unbound thyroxine levels, therefore, it does not give the activity of T4 when measured alone. This test is best completed with a T3 uptake. The free thyroxine index (FT4) can be calculated by using the T3 uptake and demonstrating a level of T4 activity. Total T4 levels can be altered by many drugs.

 

Free Thyroxine Index: As stated earlier, the total thyroxine and T3 uptake must be used together to calculate the FT4. The index is measured by multiplying the TT4 levels by the T3 uptake levels. The result is the FT4 and it determines the amount of active T4 available. The impact of drugs, as will be discussed, will always impact T4 and resin T3 uptake levels in opposite directions due to its impact on binding sites. If the TT4 level is depressed, then the T3 uptake is high; if the TT4 is elevated, the resin uptake is low. Please note that even if you are taking drugs that may impact thyroid binding, the free thyroxine index should be within the normal range if your thyroid is functioning normally.

 

Free Thyroxine (FT4): The free thyroxine test is used to measure the amount of free or active T4 in the blood. All the factors such as drugs and physical conditions that may impact the TT4 do not impact the FT4. The level of T4 in the blood is high with hyperthyroidism or low with hypothyroidism. Please note that even a high TSH with normal T4 is enough to diagnose hypothyroidism. A rare pattern is an elevated T4 without hyperthyroidism, which may be related to a hereditary condition of thyroid resistance. Elevated Free T4 may also be caused by patients taking heprin or by an acute illness that my briefly cause the binding protein levels to suddenly fall. If an illness becomes severe and chronic, it may decrease the FT4 levels but it is not a thyroid disease.