Hodges Gary J, Mallette Matthew M, Martin Zachary T, Del Pozzi Andrew T
Environmental Ergonomics Laboratory, Brock University, St Catharines, ON, Canada.
Integrative Exercise Physiology Laboratory, Ball State University, Muncie, IN, USA.
Microcirculation. 2017 Oct;24(7). doi: 10.1111/micc.12388.
To Examine the effect of inhibiting sympathetic function on cutaneous vasomotion in the forearm and leg.
Intradermal microdialysis fibers were placed in the forearm and leg, one as an untreated control (lactated Ringer's) and the other perfused with bretylium tosylate to block sympathetic nerves. Skin blood flow was monitored using laser Doppler flowmetry. Baseline was collected for 10 minutes before local skin temperature was increased to 42°C. Spectral analysis was performed using a Morlet wavelet.
Bretylium tosylate increased skin blood flow during baseline in the forearm (d=1.6, P<.05) and leg (d=0.5, P<.05) and decreased skin blood flow at both sites during both the initial peak (d≥1.0, P<.05) and plateau (d≥0.8, P<.05). Treatment with bretylium tosylate reduced wavelet amplitude associated with neural activity during baseline in the forearm (d=1.6, P<.05) and leg (d=0.9, P<.05). This reduction in wavelet amplitude at bretylium tosylate-treated sites was also observed during the initial vasodilation to local heating in both the forearm (d=1.6, P<.05) and leg (d=1.4, P<.05) and during the sustained vasodilation in both the forearm (d=1.6, P<.05) and leg (d=1.2, P<.05).
Our data support that the frequency band (0.021-0.052 Hz) associated with neurogenic activity appears to be correct having a large sympathetic component.
研究抑制交感神经功能对前臂和腿部皮肤血管运动的影响。
将皮内微透析纤维置于前臂和腿部,一根作为未处理的对照(乳酸林格液),另一根用溴苄铵灌注以阻断交感神经。使用激光多普勒血流仪监测皮肤血流量。在将局部皮肤温度升高至42°C之前,收集10分钟的基线数据。使用莫雷小波进行频谱分析。
溴苄铵在前臂(d = 1.6,P <.05)和腿部(d = 0.5,P <.05)的基线期增加皮肤血流量,并在初始峰值期(d≥1.0,P <.05)和平稳期(d≥0.8,P <.05)均降低两个部位的皮肤血流量。溴苄铵处理降低了前臂(d = 1.6,P <.05)和腿部(d = 0.9,P <.05)基线期与神经活动相关的小波振幅。在对前臂(d = 1.6,P <.05)和腿部(d = 1.4,P <.05)局部加热的初始血管舒张期以及前臂(d = 1.6,P <.05)和腿部(d = 1.2,P <.05)的持续血管舒张期,在溴苄铵处理部位也观察到小波振幅的降低。
我们的数据支持与神经源性活动相关的频段(0.021 - 0.052 Hz)似乎正确,且具有较大的交感神经成分。
