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Thyrotropin Levels during Hydrocortisone Infusions That Mimic Fasting-Induced Cortisol Elevations: A Clinical Research Center Study¹

Division of Endocrinology, Diabetes, and Clinical Nutrition, Oregon Health Sciences University, Portland, Oregon 97201

Address all correspondence and requests for reprints to: Dr. M. H. Samuels, Division of Endocrinology, Oregon Health Sciences University, 3181 SW Sam Jackson Park Road, Portland, Oregon 97201.

Both short term fasting and administration of high doses of glucocorticoids lead to marked suppression of serum TSH levels in healthy subjects. However, it is not known whether the more mild serum cortisol elevations seen during fasting can account for fasting-induced TSH suppression. To study this question, eight healthy subjects each underwent three 2-day studies: 1) baseline (ad libitum diet), 2) fasting (56 h of total caloric deprivation), 3) hydrocortisone (HC) infusions at a dose and pulsatile pattern that reproduced cortisol levels measured during each subject’s fasting study. Subjects required 34–46 mg HC/24 h to achieve these cortisol levels. During each study, blood samples were drawn every 15 min during the final 24 h for serum cortisol and TSH levels. A TRH stimulation test was performed at the end of each study. By design, fasting and HC infusions induced similar mild increases in 24-h serum cortisol levels (32% over baseline), with the most significant increases seen between 1400–0200 h. Fasting decreased 24-h mean and pulsatile TSH levels 65% from baseline, whereas HC infusions decreased mean and pulsatile TSH levels 51% from baseline. Daytime (0800–0200 h) TSH levels were identical in the two studies, whereas nocturnal (0200–0800 h) TSH levels during HC infusions fell midway between baseline and fasting studies. Serum total T₃ and TSH responses to TRH were decreased to a similar degree by fasting or HC infusions. These results suggest that mild elevations in endogenous cortisol levels may mediate at least in part fasting-induced changes in TSH secretion and thyroid hormone levels. In addition, these data show that near-physiological doses of HC and resulting changes in serum cortisol levels within the normal range can cause significant decreases in serum TSH levels.

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