School of Human Sciences (Exercise and Sport Science), The University of Western Australia, Crawley, WA, 6009, Australia.
Research Institute for Sport and Exercise Science, Liverpool John Moores University, Tom Reilly Building, Byrom Street, Liverpool, L3 3AF, UK.
Eur J Appl Physiol. 2018 Apr;118(4):837-845. doi: 10.1007/s00421-018-3813-3. Epub 2018 Feb 7.
Exercise training induces adaptation in conduit and resistance arteries in humans, partly as a consequence of repeated elevation in blood flow and shear stress. The stimuli associated with intrinsic cutaneous microvascular adaptation to exercise training have been less comprehensively studied.
We studied 14 subjects who completed 8-weeks cycle ergometer training, with partial cuff inflation on one forearm to unilaterally attenuate cutaneous blood flow responses during each exercise-training bout. Before and after training, bilateral forearm skin microvascular dilation was determined using cutaneous vascular conductance (CVC: skin flux/blood pressure) responses to gradual localised heater disk stimulation performed at rest (33, 40, 42 and 44 °C).
Cycle exercise induced significant increases in forearm cutaneous flux and temperature, which were attenuated in the cuffed arm (2-way ANOVA interaction-effect; P < 0.01). We found that forearm CVC at 42 and 44 °C was significantly lower in the uncuffed arm following 8-weeks of cycle training (P < 0.01), whereas no changes were apparent in the contralateral cuffed arm (P = 0.77, interaction-effect P = 0.01).
Lower limb exercise training in healthy young men leads to lower CVC-responses to a local heating stimulus, an adaptation mediated, at least partly, by a mechanism related to episodic increases in skin blood flow and/or skin temperature.
运动训练会引起人体输送血管和阻力血管的适应性改变,这在一定程度上是由于血流和切应力的反复升高所致。运动训练引起的内在皮肤微血管适应性改变的相关刺激因素尚未得到全面研究。
我们研究了 14 名受试者,他们完成了 8 周的自行车测力计训练,其中一只前臂通过部分袖口充气,以在每次运动训练期间单侧减弱皮肤血流反应。在训练前后,使用双侧前臂皮肤微血管扩张来确定皮肤血管传导率(CVC:皮肤流量/血压)对休息时渐进性局部加热盘刺激(33、40、42 和 44°C)的反应。
自行车运动引起了前臂皮肤通量和温度的显著增加,而袖口充气的手臂则减弱了这种增加(2 路方差分析交互效应;P<0.01)。我们发现,在 8 周的自行车训练后,未包裹手臂的 42 和 44°C 时的前臂 CVC 明显较低(P<0.01),而对侧包裹手臂则没有明显变化(P=0.77,交互效应 P=0.01)。
健康年轻男性的下肢运动训练会导致 CVC 对局部加热刺激的反应降低,这种适应至少部分是通过与皮肤血流和/或皮肤温度间歇性增加相关的机制介导的。
