It is estimated that approximately ONE HALF OF OUR COUNTRY SUFFERS FROM HYPOTHYROID.
Hypothyroidism is caused from decreased production of thyroid hormone which results in decreased metabolism. Hypothyroidism occurs more commonly in women 1.2-2% as compared to men 0.2 %. Hypothyroidism is also more common in menopausal women. People at high risk for thyroid dysfunction include post-partum women, people with high levels of radiation exposure (< 20mGy), elderly, and people with Down Syndrome. The elderly are often undiagnosed because symptoms mimic aging. Also as a person ages, the incidence increases. The primary cause of hypothyroidism is the failure of the thyroid gland termed: Primary Hypothyroidism. There are several causes of primary hypothyroidism such as Hashimoto’s disease (inflammation of the thyroid by an autoimmune mechanism), iatrogenic hypothyroidism such as after radioactive iodine therapy, iodine deficiency, enzyme defects, underdevelopment of the thyroid gland, and substances that cause goiters. Another cause of thyroid disorder is Wilson’s Syndrome. A less common cause of hypothyroidism is from pituitary or hypothalamic disease called Secondary Hypothyroidism.
The thyroid is a gland in the body which is composed of two lobes on either side of the trachea. The thyroid produces hormones that are involved in almost every part of the body. In adults, the major role is to maintain metabolic stability. Thyroid hormones are stored in the thyroid gland and in the blood. The hypothalamic-pituitary-thyroid axis is designed to monitor levels of the hormones in the body and to maintain levels in a very specific narrow range.
The synthesis of thyroid hormone occurs when the thyroid hormones thyroxine (T4) and triiodothyronine (T3), the more biologically active hormone, are formed on thyroglobulin. The thyroid cell is the site where the synthesis of the large glycoprotein thyroglobulin takes place. Iodinated tyrosine, which is present in the glycoprotein, binds together to make the active thyroid hormones. Iodine is an important element for the functioning of the thyroid gland and an adequate BLOOD supply is needed.
Three proteins are involved in the transport of T4 and T3: thyroid-binding globulin (TBG). The secretion of T4 occurs primarily in the thyroid although this is not the case for T3. T3 is formed from the breakdown of T4 in the peripheral tissues. In comparing the two hormones, T4 has NO RECEPTORS IN THE ENTIRE BODY. THEREFORE THE MEASUREMENT OF T4 HAS NO CLINICAL VALUE. T3 is the more active, ALTHOUGH THERE IS FOUR T4 for every ONE T3. T3 plays the primary role in regulating metabolic activity within the body. The thyroid’s growth and function is maintained by TSH (thyroid stimulating hormone). The thyroid is regulated by several mechanisms. First the anterior pituitary gland secretes TSH which regulates the thyroid hormones. Also the process of removing iodine from T4 and T3 is regulated by many factors which include nutrition, drugs, illness, and other non-thyroid hormones. http://www.project-aware.org/Resource/articlearchives/thyroid.shtml
In Wilson’s syndrome there is a problem converting T4 to T3. In normal thyroid function, T4 converts to T3 in the active form and reverse T3 (RT3) in an inactive form. The enzyme that is used to convert T4 to T3 is inhibited by stress, acute and chronic illness, fasting and the stress hormone cortisol. In times of stress, the body produces more T4 to RT3 to conserve energy for stress. A vicious cycle then occurs with more RT3 than T3 being produced.
Wilson’s Syndrome symptoms:
- Hair loss
- Weight gain
- Cold extremities
- Low body temperature
- Low blood pressure
- Irregular menstrual cycles
- Premenstrual syndrome
- Unexplained & chronic fatigue
- Muscle cramps
In Wilson’s Syndrome, the thyroid levels appear normal although the patient is still experiencing symptoms of low thyroid. These symptoms worsen in periods of physical or emotional stress. Possible stressors include childbirth, surgery, divorce, death in family, or job and family stress. The symptoms persist even when the stressors have passed.
Nonpharmacologic treatment includes getting plenty of rest, eliminating as much emotional stress as possible, moderate exercise for stress control, and eating a well balanced diet. Pharmacologic treatment includes reducing T4 by giving T3. In this fashion, the body senses it has enough hormones and decreases production of T4, which decreases production of RT3. Treatment only lasts for a couple of weeks or months. Sustained release T3 seems to be best tolerated in twice daily dosing. Immediate release T3 is marketed under liothyronine (Cytomel), but does not appear to work as well as sustained release T3, which a compounding pharmacy would have to prepare. Dessicated thyroid (Armour thyroid) has also been used since its main constituent is T3 although it has T4 as well. Levothyroxine (Synthoid) is not as good of an option because it is only T4.
- Lethargy and decreased energy
- Cold intolerance
- Muscle cramps
- Muscle pain and stiffness
- Weight gain
- Dry skin
- Mental slowing
- Course hair and skin
In hypothyroidism, patients can have a wide variety of symptoms but generally there is slowing of metabolic processes. There is a range of hypothyroidism that consists of subclinical to overt hypothyroidism to myxedema. Patient who are older have fewer signs and symptoms and in both young and old patients there is little correlation between clinical and biochemical manifestations.
Decreased levels of thyroid hormone result in swelling around the eyes and decreased heart rate. A patient’s speech is often slow and the voice is hoarse. Also decreased reflexes, round puffy face, loss of hair and dry skin. Patients also can experience hearing loss, numbness in the extremities, and day time sleepiness. There is also a decrease in the conversion of carotene to vitamin A which causes the skin to have a yellowish color. Also hypothyroidism is involved in decreased conversion of estrogen precursors into estrogen which can result in infertility.