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Thyrotoxicosis 21-10-2014 Dr Madhukar Mittal Medical Endocrinology
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Thyroid Gland : Overview Location In the anterior neck, affixed to anterior and lateral aspects of trachea by loose connective tissue, upper margin of isthmus just below the cricoid cartilage Structure Butterfly-shaped with two lateral lobes connected by isthmus Blood supply Superior and inferior thyroid arteries Epiglottis Thyroid cartilage Trachea Isthmus Thyroid gland
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Functions of the Thyroid Gland Secretes two hormones Thyroxine (T 4 ) Triiodothyronine (T 3 ) Play a central role in cell differentiation during development Help maintain thermogenic and metabolic homeostasis in adult Regulate oxygen use and basal metabolic rate
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Thyroid Hormones: T4 and T3 T 4 Primary secretory product of the thyroid gland, which is the only source of T 4 The thyroid secretes approximately 70-90 g of T 4 per day T 4 concentrations are 50 times greater than T 3 T 3 Biologically active hormone responsible for majority of thyroid hormone effects Circulating T3 is derived from 2 processes –About 80% comes from deiodination of T 4 in liver, kidney & other peripheral tissues –About 20% comes from direct thyroid secretion
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Physiology and Biochemistry
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Thyroid Hormones: T 4 and T 3 Synthesized by attaching iodine to the amino acid tyrosine Thyroxine (T 4 ) contains 4 iodine atoms, while triiodothyronine (T 3 ) contains 3 iodine atoms Thyroxine (T 4 ) and triiodothyronine (T 3 ) are secreted by follicular epithelial cells of the thyroid Chemistry of T 3 and T 4 Formation TyrosineMonoiodotyrosineDiiodotyrosine 3,5,3'- Triiodothyronine Thyroxine Iodinase HO I II I CH 2 CH NH 2 COOH 5’ 3’ 5 3 O Thyroxine (T 4 ) 3,5,3’,5’-Tetraiodothyronine HO II I CH 2 CH NH 2 COOH O Triiodothyronine (T 3 ) 3,5,3’-Triiodothyronine
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Synthesis and Secretion of Thyroid Hormones Capillary Thyroid follicle cell Thyroglobulin is synthesized and discharged into the follicle lumen 1 Rough ER Golgi apparatus Colloid Iodine enters follicle lumen where it is attached to tyrosine in colloid. forming DIT and MIT 3 Trapping (active uptake) of iodide (I - ) Oxidation Active form of iodine Iodide (I - ) 2a 2b DIT (T 2 ) MIT (T 1 ) Thyroglobulin colloid Iodinated tyrosines are linked together to form T 3 and T 4 4 Lysosomal enzymes cleave T 4 and T 3 from thyroglobulin colloid and hormones diffuse from follicle cell into bloodstream T3T3 T4T4 T3T3 T4T4 To peripheral tissues T3T3 T4T4 6 Thyroglobulin colloid is endocytosed and combined with a lysosome 5 T3T3 T4T4 Lysosome Uptake Organification Coupling Storage Release
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Production of T 4 and T 3 T 4 – Iodide=rT 3 ( Reverse T 3 ) … Inactive form T 4 – Iodide=T 3 ( 80% of T 3 ) MIT + DIT=T 3 DIT + DIT=T 4 Activation occurs with 5' deiodination of the outer ring of T 4
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Variation of levels in Binding Proteins Free T3 and free T4 remain stable, but Total T3 and T4 may vary Binding Proteins Bound T3 and T4 Binding Proteins Bound T3 and T4 Clinical conditions that effect the concentrations of the Thyroid Binding Proteins also effect the Total T3 and Total T4 hormones But the Total T3 and T4 are not the physiologically active forms
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Factors That Influence Thyroxine- Binding Globulin (Androgens) L-asparaginase Nicotinic acid Anabolic steroids
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Effects of Thyroid Hormones on Specific Bodily Mechanisms Basal metabolic rate Body weight Cardiovascular system Blood flow Cardiac output Heart rate Strength of heart muscle Respiration Gastrointestinal motility Central nervous system Function of the muscles Sleep Endocrine glands Sexual function
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Regulation of Thyroid Hormone Secretion
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Regulation of Thyroid Hormones: Hypothalamic-Pituitary- Thyroid Axis Negative Feedback Mechanism IodineThyroid Hypertrophy Increased secretion (Thyrotropin- releasing hormone) Anterior pituitary Hypothalamus (? Increased temperature) Thyroid stimulating hormone
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TSH ( Thyroid Stimulating Hormone ) Glycoprotein hormone Composed of Alpha and Beta subunits Same subunits as LH, FSH and HCG 2 fold increase or decrease in T4 results in a 100 fold increase or decrease in TSH
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Biological pitfalls in thyroid test interpretation Anomalous binding of T4 or T3 to serum proteins Genetic Drug induced Disease induced Pregnancy Disrupted set point of the hypothalamic-pituitary-thyroid axis Nonthyroid illness Drugs Thyroid hormone resistance Acute psychiatric illness
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Thyroid Dysfunction TSH HighNormal Low Free T4 LowNormal Hypothyroidism Subclinical Hypothyroidism Normal Free T4 High Subclinical Hyperthyroidism Hyperthyroidism Joshi S. Journal of The Association of Physicians of India; 2011:14-20.
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Diseases of the Thyroid
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Definitions Goiter Enlargement of the thyroid gland Hypothyroid Inadequate thyroid hormone production Thyroiditis Inflammation of the thyroid gland Thyrotoxicosis State resulting from excess production/exposure to thyroid hormone Hyperthyroidism Thyrotoxicosis caused by a hyperfunctioning thyroid gland Excludes thyroiditis or excessive exogenous thyroid hormone
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Thyroid hypo- and hyperfunction Hypothyroidism Results from decreased production of thyroid hormones Increased TSH Decreased T4/T3 + Goitre Hyperthyroidism Excessive secretion of T3 & T4 Increased T3, T4 Decreased TSH Thyroid Scan (Increased RAI Uptake) + Goitre
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Autoimmune Thyroid Disease TSH-R Ab stim (TSI) Graves’ Disease (Hyperthyroid) Thyroid peroxidase Ab Thyroglobulin Ab TSH-R Ab block Hashimoto’s (Hypothyroid) Thyroid Autoantibodies
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Prevalence Of Thyroid Autoantibodies GROUPTSHRAb (%) TgAb (%) TPOAb (%) General population ~05-208-27 Graves ’ disease 80-9550-7050-80 Autoimmune thyroiditis 10-2080-9090-100
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Thyrotoxicosis Increased production and/or secretion of thyroid hormones Decreased TSH, Increased T4/T3
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Causes Graves’ disease MC (60-90%) Autoimmune Stimulation of thyroid by IgG antireceptor antibody –Activates the TSH receptor –Results in autonomous thyroid hormone secretion Toxic Adenoma Toxic Multinodular Goiter Iodine-induced (Jod basedow) Subacute Thyroiditis (Inflammation of thyroid gland) Ectopic thyroid tissue (struma ovarii, functioning metastatic thyroid tissue) Trophoblastic tumor Factitious Hyperthyroidism Increased TSH secretion
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Primary hyperthyroidism –Graves’ disease –Toxic multinodular goitermultinodular goiter –Toxic adenoma –Activating mutation of the TSH receptor –Somatic: Toxic adenoma –Germ line: Familial or sporadic non-autoimmune hyperthyroidism (rare) –Activating mutation of Gs α (McCune–Albright syndrome) –Rare –Functioning follicular thyroid carcinoma metastases –Struma ovarii –Drugs: iodine excess (Jod–Basedow phenomenon)
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Thyrotoxicosis without hyperthyroidism –Subacute thyroiditis, early stage –Silent thyroiditis –Other causes of thyroid destruction: amiodarone, radiation, infarction of adenomaamiodarone –Surreptitious ingestion of excess thyroid hormone (thyrotoxicosis factitia) or thyroid tissue
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Nervousness/Tremor Mental Disturbances/ Irritability Difficulty Sleeping Bulging Eyes/Unblinking Stare/ Vision Changes Enlarged Thyroid (Goiter) Menstrual Irregularities/ Light Period Frequent Bowel Movements Warm, Moist Palms First-Trimester Miscarriage/ Excessive Vomiting in Pregnancy Neck Pain Persistent Dry or Sore Throat Difficulty Swallowing Palpitations/ Tachycardia Impaired Fertility Weight Loss Heat Intolerance Increased Sweating Signs and Symptoms of Hyperthyroidism Sudden Paralysis
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Disorders that can mimic features of thyrotoxicosis Panic attacks Panic attacks Mania Pheochromocytoma Pheochromocytoma Weight loss due to cancer
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Thyroid Scan Radioisotopes of Iodine Tc 99m pertechnetate Uses Differential diagnosis of thyrotoxicosis Evaluation of solitary thyroid nodules Follow-up of thyroid cancer Evaluation of substernal mass To rule out Ectopic thyroid tissue
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Thyroid Scan Increased radioactive iodine uptake Graves’ Toxic Multinodular Goitre Toxic adenoma TSH producing Pituitary tumour Reduced radioactive iodine uptake Subacute Thyroiditis de Quervain’s Silent/Postpartum Radiation Struma ovarii Metastatic follicular Thyroid carcinoma Factitious
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RAIU Images: Graves’ Disease and Toxic Autonomous Nodule Graves disease : Diffuse increase of RAIUToxic autonomous nodule : Increases RAIU corresponding to right thyroid nodule
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RAIU Images: Toxic Goiter and Subacute Thyroiditis Toxic multinodular goiter : Multiple patchy areas of increased RAIU Subacute thyroiditis : Suppressed RAIU in the neck. Salivary gland uptake seen
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Treatment Antithyroid drugs Carbimazole Methimazole Propylthioracil (PTU) Beta Adrenergic Blockers Inderal (Propranolol) Radioactive Iodine Therapy Surgery Other drugs Stable Iodine - Lugol’s Solution, SSKI Lithium Dexamethasone
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Ultrasonography of the Thyroid Ultrasonography provides accurate information on the size, shape, and texture of the thyroid gland It is the most valuable technique to evaluate the anatomy of the thyroid gland Mostly used for detecting nodular thyroid disease The thyroid gland is slightly more echo-dense than the adjacent structures because of its iodine content
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Thyroid USG Uses Detection of nodules and cysts Monitor nodule size Can be used for guided FNAC Evaluation of malignancy, cervical lymph nodes Thyroid agenesis Ultrasonography of the thyroid where radionuclide scanning is contraindicated Pregnancy Breast-feeding Following recent iodine exposure
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Interpretation of Thyroid function tests
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↓ TSH Thyrotoxicosis Subclinical thyrotoxicosis 1 st trimester of pregnancy Secondary hypothyroidism ↑T4 & T3 Normal T4 & T3 Normal FT4 ↓ T4/FT4
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↓ TSH, Normal FT4 Subclinical Thyrotoxicosis T 3 toxicosis
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Summary
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TSH Low High FT4 FT4 & FT3 Low 1° Hypothyroid Low Central Hypothyroidism MRI, etc. High Thyrotoxicosis High 2° thyrotoxicosis Resistance FT3, SHBG MRI RAIU
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Intricacies in thyroid Management Thyroid in pregnancy Congenital hypothyroidism Thyroid disease in children Thyroid disease in cardiac patients Thyroid emergencies Goitre Malignancy
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Thank You
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