Graves Disease Clinical Trial
Official title:
Low Doses of Cholestyramine in the Treatment of Hyperthyroidism
The enterohepatic circulation of thyroid hormones is increased in thyrotoxicosis.Bile-salt sequestrants (ionic exchange resins) bind thyroid hormones in the intestine and thereby increase their fecal excretion. Based on these observations, the use of cholestyramine has been tried. The present study evaluates the effect of low doses of cholestyramine as an adjunctive therapy in the management of hyperthyroidism
The gastrointestinal tract has a role in thyroid physiology. Thyroid hormone is metabolized
mainly in the liver, where it is conjugated to glucurunides and sulfates. These conjugation
products are then excreted in the bile. Free hormones are released in the intestine and
finally reabsorbed, completing the enterohepatic circulation of thyroid hormone. A very
small portion of the daily production of thyroxin (T4) and triiodothyronine (T3), less than
10 percent, is excreted in the stool (1-3). In people with normal thyroid function, this
pathway of T4 and T3 recirculation contributes so little to hormone availability that
patients who have gastrointestinal disease or are receiving drugs that decrease T4
absorption do not have abnormal thyroid function (4). However, the thyrotoxic states are
characterized by an increased enterohepatic circulation of thyroid hormones, as well as an
increased urinary and fecal excretion of both conjugated and free T4 (5,6).
Cholestyramine, an ionic exchange resin sequesters T4 in the intestine and increases its
fecal excretion. These phenomena were proven in hamsters in mid 1960s (7). Experimentally,
it has been shown that 50 mg of cholestyramine can bind approximately 3000 μg of T4 (8) and
therefore can enhance the clearance of thyroid hormones. Because of the increased
enterohepatic circulation of thyroid hormones during hyperthyroidism, attempts have been
made to sequester these hormones in the intestine using ionic exchange resins (9-13).
Cholestyramine therapy has been studied in the treatment of thyrotoxicosis as an adjunctive
therapy to thionamides, and has been found to decrease thyroid hormone levels rapidly. In
several trials, cholestyramine in combination with methimazole (MMI) or propylthiouracil,
caused a more rapid decline in thyroid hormone levels than standard therapy with thionamides
alone (9-11,13). In all of these trials, cholestyramine was dosed at 4 grams orally two to
four times a day.
This study was conducted to examine the efficacy of combination therapy of lower doses of
cholestyramine with MMI and propranolol for treating patients with Graves' hyperthyroidism.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator), Primary Purpose: Treatment
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