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Thyroid Hormone Testing Services Waco

Thyroid function tests help to determine if your thyroid is not working correctly. If blood levels of thyroid hormone are high, the brain senses this and sends a message to stop producing TSH.

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Thyroid Hormone Testing Services Waco

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  1. THYROID HORMONE: • Gross and Microscopic Anatomy of the Thyroid Gland. • Production of Thyroid Hormones. • Transport of T3 and T4 • Actions of Thyroid Hormones. • Regulation of Thyroid Hormones. • Hyper- and Hypothyroidism

  2. Histology of the Thyroid Gland • The thyroid gland contains numerous follicles, composed of epithelial follicle cells and colloid. • Also, between follicles are Para-follicular cells, which produce Calcitonin.

  3. The Thyroid Gland – Histology: • Squamous epithelial cells, cuboidal cells (follicle cells).Gland is composed of hollow spheres, called colloid follicles.Colloid fills the follicle cavities. • Follicle cells produce thyroglobulin.

  4. Thyroid Hormones: • There are two biologically active thyroid hormones: - Tetraiodothyronine(T4; usually called thyroxine) - Triiodothyronine (T3) • Derived from modification of tyrosine(amino acid).

  5. Differences between T4 and T3: • The thyroid secretes about 80mg of T4, but only 5mg of T3 per day. • However, T3 has a much greater biological activity about 10 folds than T4. • An additional 25mg/day of T3 is produced by peripheral monodeiodination of T4 by enzyme called 5’ Monodeiodenase.

  6. Major sources of iodine: • Thyroid hormones are unique biological molecules in that they incorporate iodine in their structure. • Thus, adequate iodine intake either through diet or water is required for normal thyroid hormone production. • Major sources of iodine are: - iodized salt - iodated bread - dairy products - shellfish • Minimum requirement(RDA): 75 micrograms/day • US intake: 200 - 500 micrograms/day

  7. The Next Step: Production of Thyroglobulin: • Pituitary produces TSH, which binds to follicle cell receptors. • The follicle cells of the thyroid produce thyroglobulin. • Thyroglobulin is a very large glycoprotein. • Thyroglobulin is released into the colloid space, where it’s tyrosine residues are iodinated by I+. • This results in formation of monoiodotyrosine or diiodotyrosine.

  8. Transport of Thyroid Hormones • Thyroid hormones are lipid-soluble. • Thus, they are found in the circulation associated with binding proteins: - Thyroid Hormone-Binding Globulin(TBG) (~70% of hormone) - Pre-albumin(Transthyretin) (~15%) - Albumin (~15%) • Less than 1% of thyroid hormone is found free in the circulation. • Only free and albumin-bound thyroid hormone is biologically available to tissues. • Among the amount of thyroid hormone production and release T4 is approximately 95% and T3 is 5%. But biological active is T3 so T4 is converted to T3 in peripheral tissues by the enzyme 5’monodeiodinase and become active.

  9. Conversion of T4 to T3 • T3 has much greater biological activity than T4. • A large amount of T4 (25%) is converted to T3 in peripheral tissues. • This conversion takes place mainly in the liver and kidneys. The T3 formed is then released to the blood stream. • In addition to T3, an equal amount of “Reverse T3” may also be formed. This has no biological activity. T3 MIT + DIT Reverse T3 DIT + MIT

  10. Regulation of Thyroid Hormone Levels: • Thyroid hormone synthesis and secretion is regulated by two main mechanisms: - An “auto regulation” mechanism, which reflects the available levels of iodine. - Regulation by the hypothalamus and anterior pituitary.

  11. Auto regulation of Thyroid Hormone Production • The rate of iodine uptake and incorporation into thyroglobulin is influenced by the amount of iodide available: - Low iodide levels increase iodine transport into follicular cells - High iodide levels decrease iodine transport into follicular cells Thus, there is negative feedback regulation of iodide transport by iodide.

  12. Neuro endocrine Regulation of Thyroid Hormones: Role of TSH • Thyroid-stimulating hormone (TSH) is produced by thyrotroph cells of the anterior pituitary. • TSH is a glycoprotein hormone composed of two subunits: - alpha subunit (common to LH, FSH, TSH, hCG) - TSH beta subunit, which gives specificity of receptor binding and biological activity.

  13. Other Factors Regulating Thyroid Hormone Levels • Diet: a high carbohydrate diet increases T3 levels, resulting in increased metabolic rate (diet-induced thermo genesis). • Low carbohydrate diets decrease T3 levels, resulting in decreased metabolic rate. • Cold Stress: increases T3 levels in other animals, but not in humans. • Any condition that increases body energy requirements (e.g., pregnancy, prolonged cold) stimulates hypothalamus  TRH  TSH.

  14. Actions of Thyroid Hormones: • Thyroid hormones are essential for normal growth of tissues, including the nervous system. • Lack of thyroid hormone during development results in short stature and mental deficits (cretinism). • Thyroid hormone stimulates or increase Basal Metabolic Rate(BMR).

  15. Required for GH and prolactin production and secretion • Required for GH action • Increases intestinal glucose reabsorption (glucose transporter) • Increases mitochondrial oxidative phosphorylation (ATP production) • Increases activity of adrenal medulla (sympathetic; glucose production) • Induces enzyme synthesis • Result: stimulation of growth of tissues and increased metabolic rate. Increased heat production (calorigenic effect)

  16. Effects of Thyroid Hormone on Nutrient Sources: • Effects on protein synthesis and degradation: -increased protein synthesis at low thyroid hormone levels (low metabolic rate; growth) -increased protein degradation at high thyroid hormone levels (high metabolic rate; energy) • Effects on carbohydrates: -low doses of thyroid hormone increase glycogen synthesis (low metabolic rate; storage of energy) - high doses increase glycogen breakdown (high metabolic rate; glucose production)

  17. One Major Target Gene of T3: The Na+/K+ ATPase Pump: • Pumps sodium and potassium across cell membranes to maintain resting membrane potential • Activity of the Na+/K+ pump uses up energy, in the form of ATP • About 1/3rd of all ATP in the body is used by the Na+/K+ ATPase • T3 increases the synthesis of Na+/K+ pumps, markedly increasing ATP consumption(BMR increases). • T3 also acts on mitochondria to increase ATP synthesis(size and number of mitochondria will increase). • The resulting increased metabolic rate increases thermo genesis (heat production).

  18. Thyroid Hormone Actions which Increase Oxygen Consumption • Increase mitochondrial size, number and key enzymes. • Increase plasma membrane Na-K ATPase activity. • Increase futile(ineffective) thermogenic energy cycles. • Decrease super oxide dismutase activity.

  19. Effects of Thyroid Hormones on the Cardiovascular System • Increase heart rate • Increase force of cardiac contractions • Increase stroke volume • Increase Cardiac output • Up-regulate catecholamine receptors

  20. Effects of Thyroid Hormones on the Respiratory System • Increase resting respiratory rate • Increase minute ventilation • Increase ventilatory response to hypercapnia and hypoxia

  21. Effects Thyroid Hormones in Growth and Tissue Development • Increase growth and maturation of bone. • Increase tooth development and eruption. • Increase growth and maturation of epidermis, hair follicles and nails. • Increase rate and force of skeletal muscle contraction.

  22. Effects of Thyroid Hormones on the Nervous System • Critical for normal CNS neuronal development • Enhances wakefulness and alertness • Enhances memory and learning capacity • Required for normal emotional tone • Increase speed and amplitude of peripheral nerve reflexes

  23. Effects of Thyroid Hormones on the Reproductive System • Required for normal follicular development and ovulation in the female • Required for the normal maintenance of pregnancy • Required for normal spermatogenesis in the male

  24. How is Hypothyroidism Related to Goiter? • During iodine deficiency, thyroid hormone production decreases. • This results in increased TSH release (less negative feedback). • TSH acts on thyroid, increasing blood flow, and stimulating follicular cells and increasing colloid production.

  25. Midwest – the Goiter Belt • If goiter is due to decreased I, then thyroid gland enlarges – called endemic or colloidal goiter. • Pituitary gland  TSH stimulate thyroid gland to produce TH, but the only result is that the follicles accumulate more and more unusable colloid. • Cells eventually die from over activity and the gland atrophies.

  26. Thyroid Hormone Excess: Hyperthyroidism • Emotional symptoms (nervousness, irritability), fatigue, heat intolerance, elevated metabolic rate, weight loss, tachycardia, goiter, muscle wasting, apparent bulging of eyes, may develop congestive heart failure. • Causes: (a) Excessive TSH release. (b) Autoimmune disorders.

  27. Thank You for Giving your Time ANYLABTESTWACO 5174 W. Waco Drive Waco, TX 76710 Phone: 254-300-4183 Fax: (254) 300-4205 Hours of Operation: M-F: 8:30 am - 6:30 pm S: 9:00 am - 2:00 pm

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