hyperthyroid Flashcards
2 broad groups of disorders
-Abnormal function
-Abnormal growth (nodules) in the gland
thyroid diseases
-Common problems in the general population -> Older people and women
-Functional disorders
-Related to the gland producing too little thyroid hormone (hypothyroidism)
-Or too much thyroid hormone (hyperthyroidism)
-Benign nodules in the thyroid gland are common; do not USUALLY cause serious health problems
-Occur when the cell growth within the nodule is abnormal
-Nodules can occasionally put pressure on the neck -> cause difficulty swallowing, breathing or speaking
testing for different disease
-screening- TSH (most sensitive for primary hypo and hyper) and T4
-hypothyroidism- TSH (high in primary and low in secondary) and anti-TPO
-hyperthyroidism:
-TSH (suppressed except in TSH secreting pituitary tumor or pituitary hyperplasia)
-T3 or free T4 - elevated
-123-I uptake and scan- increase uptake, diffuse versus hot foci on scan
-anti-TPO- elevated in graves
-TSI- 65% + in graves
-thyroid nodules:
-FNA bx- best dx for thyroid cancer
-123-I uptake and scan- cancer is usually cold, less reliable than FNA
-99m-Tc scan- vascular versus less vascular
-U/S- assist with FNA bx, assesses risk of malignancy , monitor nodules and pts after thyroid surgery for carcinoma
hyperthyroidism types
-Graves’ Disease
-Thyroiditis
-Acute Thyroiditis
-Subacute Thyroiditis
-Hashimoto’s Thyroiditis- small period before when its hyper and then becomes hypo
-Toxic adenomas
-Multi nodular goiter
-Thyrotoxicosis factitial (abusing levothyroxine for wt loss) vs. Struma ovarii (teratoma)
-Pituitary tumor
-Pregnancy & trophoblastic tumors
-Thyroid carcinoma – rare cause of thyrotoxicosis
-Jodbasedow disease
-Amiodarone-induced thyrotoxicosis
thyrotoxicosis vs hyperthyroidism
-Thyrotoxicosis
Is defined as the state of thyroid hormone excess
Is not synonymous with hyperthyroidism??? -> she said in class they are the same thing
-Hyperthyroidism is result of excessive thyroid function
-However, the major etiologies of thyrotoxicosis are hyperthyroidism -> Caused by Graves’ disease, toxic multinodular goiter, and toxic adenomas
hyperthyroidism
-Refers to conditions caused by excessive thyroid hormone produced by the thyroid gland
-Signs and symptoms generally result from stimulation of the adrenergic nervous system
-hx of radiation on the neck? lymphoma?
-nodules are usually non-tender (dont hurt)
-The MC causes of hyperthyroidism
-Graves’ disease
-Toxic multinodular goiter
-Toxic uninodular goiter
-Thyroiditis
-Less common causes
-Thyroid-stimulating hormone producing tumors
-Pituitary resistance to thyroid hormone
-Trophoblastic disease
-Iodine ingestion
graves disease
-toxic diffuse goiter
-MC cause, familial predisposition
-autoimmune disease
-thyroid gland is being stimulated by Thyrotropin receptor antibodies
[also known as thyroid-stimulating immunoglobulin]
-60 to 80% of thyrotoxicosis
-Prevalence varies among populations -> Typically occurs between 20-50 years of age, but also in elderly
-Genetic factors and environmental factors contribute to susceptibility to GD; Indirect evidence - stress - important environmental factor
-Smoking:
-minor risk factor for Graves’ disease
-major risk factor for ophthalmopathy
-Sudden increases in iodine intake may precipitate Graves’ disease
-3-fold increase in the occurrence of Graves’ disease in the postpartum period
toxic multinodular goiter
-toxic several nodules
-Multiple areas in the thyroid gland are overproducing thyroid hormone independently of TSH
toxic unimodular goiter
-adenoma
-A solitary nodule in the thyroid gland overproducing thyroid hormone independently of TSH
subacute thyroiditis
-often idiopathic
-but sometimes virally mediated inflammation and destruction of the thyroid gland
-Consequently, the stored thyroid hormones are released into the circulation, causing a transient hyperthyroid state
rare causes
-TSH-secreting pituitary adenoma or pituitary resistance to thyroid hormones
-Pituitary adenoma - benign neoplasms of the anterior pituitary
-Functioning trophoblastic tumors - this includes hydatidiform mole, choriocarcinoma, or metastatic embryonal carcinoma of the testis
-Iodine-induced hyperthyroidism (Jod-Basedow’s disease) - occurs when supplemental iodine is given to patients with iodine-deficiency goiter
epidemiology
-Genetics- Graves’ disease has a familial predisposition and can overlap clinically and immunologically with Hashimoto’s disease
-Graves’ disease has a genetic predisposition that is polygenic in nature
-Increased frequency in human leukocyte antigen (HLA)
-Geography- Iodine-induced hyperthyroidism - outbreaks of thyrotoxicosis have occurred when thyroid supplements added into diets of previously iodine-deficient populations
iodine
-give radioactive iodine
-whole gland lights up- graves
-overactive thyroid
-if its a nodule- only that nodule shows up
-radioactive iodine can be a treatment to kill overactive thyroid cells (last resort before removal) -> can make you hypothyroid
-Five different scintigrams taken from thyroids with different syndromes: (A) Normal thyroid; (B) Graves disease, diffuse increased uptake in both thyroid lobes; (C) Plummer disease (toxic multinodular goiter); (D) Toxic adenoma; (E) Thyroiditis (marker 99Tc).
thyroid nodule
-<1mm - monitor
-1-2mm - monitor, bx
symptoms
-Nervousness
-Sweating
-Sensitivity to heat
-Palpitations
-Fatigue
-Dyspnea
-Increase in appetite
-Eye irritation
-Swelling in legs
-Increased frequency of bowel movement, or diarrhea
-pretibial myxedema ** (dont confuse myxedema)
signs
-Cardiovascular manifestations
-Fever
-Warm, moist skin
-Tremor
-Bruit over thyroid
-Goiter
-Dermopathy (GD)
-Weight loss (although weight gain can occur in 5% of patients due to increased appetite)
-Splenomegaly
-Gynecomastia
-Oligomenorrhea/amenorrhea/menorrhagia
-Thymic hyperplasia can rarely occur
-Palmar erythema
-Onycholysis
-Less commonly:
-Pruritus
-Urticaria
-Diffuse hyperpigmentation
-Hair texture may become fine
-Diffuse alopecia occurs in up to 40% of patients
-Persisting for months after restoration of euthyroidism
graves ophthalmopathy
-Eye signs (erythema, lid retraction, stare)
-The earliest manifestations:
-Usually a sensation of grittiness
-Eye discomfort
-Excess tearing
-In severe cases - corneal exposure and damage can occur, especially if the lids fail to close during sleep
-Periorbital edema, scleral injection, and chemosis are also frequent
-Exophthalmos: Thyroid stare and Lid lag
-These are due to adrenergic stimulation, not infiltrative disease
-About 1/3 of pts have PROPTOSIS
-Best detected by visualization of the sclera between the lower border of the iris and the lower eyelid, with the eyes in the primary position
-Can be measured using an exophthalmometer
-Unilateral exophthalmos should not be attributed to Graves’ disease (tumor)
-Lid retraction, causing a staring appearance, can occur in any form of thyrotoxicosis -> result of sympathetic over activity
-eye symptoms are also called thyroid-associated ophthalmopathy -> Most of these pts have autoimmune hypothyroidism or thyroid antibodies
-onset of Graves’ ophthalmopathy occurs within year before or after dx of thyrotoxicosis in 75% of pts -> Can sometimes precede or follow thyrotoxicosis by several years, accounting for some cases of euthyroid ophthalmopathy
graves: dermopathy
-Almost always in the presence of moderate or severe ophthalmopathy
-Most frequent over the anterior and lateral aspects of the lower leg (hence the term pretibial myxedema), skin changes can occur at other sites, particularly after trauma
-The typical lesion is a noninflamed, indurated plaque with a deep pink or purple color and an “orange-skin” appearance
graves: thyroid acropachy
-Refers to a form of clubbing
-It is so strongly associated with thyroid dermopathy that an alternative cause of clubbing should be sought in a Graves’ patient without coincident skin and orbital involvement
neurologic manifestations
-Common neurologic manifestations include
-Hyperreflexia (brisk), muscle wasting, and proximal myopathy without fasciculation
-Chorea is a rare feature
-Sometimes associated with a form of hypokalemic periodic paralysis -> This disorder is particularly common in Asian males with thyrotoxicosis
other effects: graves
-The direct effect of thyroid hormones on bone resorption leads to osteopenia in long-standing thyrotoxicosis
-Mild hypercalcemia occurs in up to 20% of patients
-Hypercalciuria is more common
-There is a small increase in fracture rate in patients with a previous history of thyrotoxicosis
presentation and Mx in the elderly and children
-In the elderly:
-Congestive heart failure
-Atrial fibrillation - Digoxin, beta-blockers, and anticoagulants, may be required
-Management of these complications need to be done early or in conjunction with treatment of GD
-Proximal muscle weakness
-In children:
-Accelerated linear growth
-Eye signs are more common
differential dx
Anxiety
Thyroiditis
Pheochromocytoma
Autoimmune Deficiency Syndrome (AIDS)
Malignancy
Accelerated Hypertension
Orbital Tumors
Cushing’s Syndrome
lab studies
-TSH level is suppressed and total and unbound T3 & T4 levels increased.
-In 2–5% of patients (and more in areas of borderline iodine intake), only T3 is increased (T3 toxicosis).
-Measurement of TPO antibodies is useful in differential diagnosis.
-Associated abnormalities that may cause diagnostic confusion in thyrotoxicosis include elevation of bilirubin, liver enzymes, and ferritin.
-Microcytic anemia and thrombocytopenia may occur
