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1 Noll Physiological Research Center and 2 Department of Kinesiology, The Pennsylvania State University, University Park, Pennsylvania 16802-6900
To determine the effect and underlying
mechanisms of exercise training and the influence of age on the skin
blood flow (SkBF) response to exercise in a hot environment, 22 young
(Y; 18-30 yr) and 21 older (O; 61-78 yr) men were assigned to
16 wk of aerobic (A; YA, n = 8; OA,
n = 11), resistance (R; YR,
n = 7; OR,
n = 3), or no training (C; YC,
n = 7; OC,
n = 7). Before and after treatment, subjects exercised at 60% of maximum oxygen consumption (
O2 max) on a cycle
ergometer for 60 min at 36°C. Cutaneous vascular conductance,
defined as SkBF divided by mean arterial pressure, was monitored at
control (vasoconstriction intact) and bretylium-treated
(vasoconstriction blocked) sites on the forearm using laser-Doppler
flowmetry. Forearm vascular conductance was calculated as forearm blood
flow (venous occlusion plethysmography) divided by mean arterial
pressure. Esophageal and skin temperatures were recorded. Only aerobic
training (functionally defined a priori as a 5% or greater increase in
O2 max) produced a
decrease in the mean body temperature threshold for increasing forearm
vascular conductance (36.89 ± 0.08 to 36.63 ± 0.08°C,
P < 0.003) and cutaneous vascular
conductance (36.91 ± 0.08 to 36.65 ± 0.08°C,
P < 0.004). Similar thresholds
between control and bretylium-treated sites indicated that the decrease
was mediated through the active vasodilator system. This shift was more
pronounced in the older men who presented greater training-induced
increases in O2 max
than did the young men (22 and 9%, respectively). In summary, older
men improved their SkBF response to exercise-heat stress through the
effect of aerobic training on the cutaneous vasodilator system.
temperature regulation; core temperature; exercise training; age; aging; thermoregulation
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