Endocrine markers of semistarvation in healthy lean men in a multistressor environment

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Endocrine markers of semistarvation in healthy lean men in a multistressor environment

Karl E. Friedl, Robert J. Moore, Reed W. Hoyt, Louis J. Marchitelli, Lester E. Martinez-Lopez, and E. Wayne Askew

United States Army Research Institute of Environmental Medicine, Natick, Massachusetts 01760-5007

We tested the hypothesis that key endocrine responses to semistarvation would be attenuated by changing only the food intakein a multistressor environment that also included sustained workload,inadequate sleep, and thermal strain. Serum hormones were comparedwithin and between two groups of healthy young male volunteersparticipating in the 8-wk US Army Ranger course, with four repeatedcycles of restricted energy intakes and refeeding: group 1 (n= 49) and group 2 (n = 48); energy deficits averaged 1,200 and1,000 kcal/day, respectively. After 8 wk, most of group 1 achieveda minimum body fat, serum 3,5,3'-triiodothyronine (T₃) was belownormal (78 ± 20 ng/dl), testosterone (T) approached castrate levels(4.5 ± 3.9 nmol/l), insulin-like growth factor I (IGF-I) declinedby one-half (75 ± 25 µg/l), and cholesterol rose from 158 ± 31to 217 ± 39 mg/dl. Bioavailable T₃ and T were further reducedby increases in their specific binding proteins in response todeclining insulin. Refeeding, even with continuation of the otherstressors, produced prompt recovery of T₃, T, and IGF-I. Higherenergy intakes in group 2 attenuated the subclinical hypothyroidismand hypercholesterolemia, whereas consistent luteinizing hormonesuppression indicated centrally mediated threshold effects ongonadal hormone suppression. We conclude that low T, T₃, and IGF-Iremained reliable markers of acute energy deficits in the presenceof other stressors; elevated cholesterol and cortisol providedinformation about chronic status, corresponding to diminishingbody fatstores.

weight loss; sleep deprivation; body fat; insulin; testosterone, insulin-like growth factor I; 3,5,3'-triiodothyronine; cholesterol; cortisol; growth hormone; thyroid-stimulating hormone; binding globulins; luteinizing hormone

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