| Abstract: | To determine if heat exposure alters the hormonal responses to moderate, repeated exercise, 11 healthy male subjects age = 27.1
(3.0) years; maximal oxygen consumption, V˙O2max = 47.6 (6.2) ml · kg · min−1; mean (SD)] were assigned to four different experimental conditions according to a randomized-block design. While in a thermoneutral
(23°C) or heated (40°C, 30% relative humidity) climatic chamber, subjects performed either cycle ergometer exercise (two 30-min
bouts at ≈50% V˙O2max, separated by a 45-min recovery interval, CEx and HEx conditions), or remained seated for 3 h (CS and HS conditions). Blood
samples were analyzed for various exercise stress hormones epinephrine (E), norepinephrine (NE), dopamine, cortisol and human
growth hormone (hGH)]. Passive heating did not alter the concentrations of any of these hormones significantly. During both
environmental conditions, exercise induced significant (P < 0.001) elevations in plasma E, NE and hGH levels. At 23°C during bout 1: E = 393 (199) pmol · l−1 (CEx) vs 174 (85) pmol · l−1 (CS), NE = 4593 (2640) pmol · l−1 (CEx) vs 1548 (505) pmol · l−1 (CS), and hGH = 274 (340) pmol · l−1 (CEx)vs 64 (112) pmol · l−1 (CS). At 40°C, bout 1: E = 596 (346) pmol · l−1 (HEx) vs 323 (181) pmol · l−1 (HS), NE = 7789 (5129) pmol · l−1 (HEx) vs 1527 (605) pmol · l−1 (HS), and hGH = 453 (494) pmol · l−1 (HEx) vs 172 (355) pmol · l−1 (HS). However, concentrations of plasma cortisol were increased only in response to exercise in the heat HEx = 364 (168)
nmol · l−1 vs HS = 295 (114) nmol · l−1). Compared to exercise at room temperature, plasma levels of E, NE and cortisol were all higher during exercise in the heat
(P < 0.001 in all cases). The repetition of exercise did not significantly alter the pattern of change in cortisol or hGH levels
in either environmental condition. However, repetition of exercise in the heat increased circulatory and psychological stress,
with significantly (P < 0.001) higher plasma concentrations of E and NE. These results indicate a differential response of the various stress hormones
to heat exposure and repeated moderate exercise.
Accepted: 16 April 1997 |
