感觉神经对前臂和腿部皮肤因局部皮肤受热而发生血管舒张的作用。

The contribution of sensory nerves to cutaneous vasodilatation of the forearm and leg to local skin heating.

作者信息

Hodges Gary J, Del Pozzi Andrew T, McGarr Gregory W, Mallette Matthew M, Cheung Stephen S

机构信息

Environmental Ergonomics Laboratory, Department of Kinesiology, Brock University, St. Catharines, ON, L2S 3A1, Canada.

Department of Pediatrics, New York Medical College, Hawthorne, NY, 10532, USA.

出版信息

Eur J Appl Physiol. 2015 Oct;115(10):2091-8. doi: 10.1007/s00421-015-3188-7. Epub 2015 May 22.

DOI:10.1007/s00421-015-3188-7

PMID:25998144

Abstract

PURPOSE

The initial cutaneous vasodilatory response to local skin heating is larger in the forearm than the leg. While the initial vasodilatation of the forearm to local heating is primarily dependent on sensory nerves, their role in the leg is unknown. We compared the contribution of sensory nerves in driving the cutaneous vasodilatory response of the forearm and leg to local heating using local anaesthetic (EMLA) cream.

METHOD

In seven participants, two skin sites were selected on both the dorsal forearm and anterolateral calf; one site on each region received EMLA, with the other an untreated control. All sites were controlled at 33 °C and then locally heated to 42 °C with integrated laser-Doppler local heating probes.

RESULTS

Cutaneous vascular conductance (CVC) during the initial vasodilatation to local heating was smaller in the leg (47 ± 9% max) compared to the forearm (62 ± 7 % max) (P = 0.012). EMLA reduced the initial vasodilatation at both the leg (27 ± 13 % max) (P = 0.02) and forearm (33 ± 14% max) (P < 0.001). The times to onset of vasodilatation, initial vasodilatory peak, and plateau phase were longer in the leg compared to the forearm (all P < 0.05), and EMLA increased these times in both regions (both P < 0.05). CVC during the plateau phase to sustained local skin heating was higher in the leg compared to the forearm at both the untreated (93 ± 6 vs. 85 ± 4% max) (P = 0.33) and EMLA-treated (94 ± 5 vs. 86 ± 6% max) (P = 0.001) sites; EMLA did not affect CVC (P > 0.05).

CONCLUSION

The differences in the initial vasodilatory peak to local skin heating between the forearm and the leg are due to the contribution of sensory nerves.

摘要

目的

局部皮肤受热时，前臂的初始皮肤血管舒张反应比腿部更大。虽然前臂对局部加热的初始血管舒张主要依赖于感觉神经，但其在腿部的作用尚不清楚。我们使用局部麻醉（复方利多卡因）乳膏比较了感觉神经在驱动前臂和腿部皮肤对局部加热的血管舒张反应中的作用。

方法

选取7名参与者，在其双侧前臂背侧和小腿前外侧各选择两个皮肤部位；每个区域的一个部位涂抹复方利多卡因，另一个为未处理的对照部位。所有部位均保持在33℃，然后使用集成激光多普勒局部加热探头将局部加热至42℃。

结果

与前臂（最大62±7%）相比，腿部在对局部加热的初始血管舒张过程中的皮肤血管传导率（CVC）较小（最大47±9%）（P = 0.012）。复方利多卡因降低了腿部（最大27±13%）（P = 0.02）和前臂（最大33±14%）（P < 0.001）的初始血管舒张。与前臂相比，腿部血管舒张开始时间、初始血管舒张峰值和平台期时间更长（均P < 0.05），复方利多卡因在两个区域均延长了这些时间（均P < 0.05）。在未处理部位（最大93±6对85±4%）（P = 0.33）和复方利多卡因处理部位（最大94±5对86±6%）（P = 0.001），腿部在平台期对持续局部皮肤加热的CVC均高于前臂；复方利多卡因不影响CVC（P > 0.05）。

结论

前臂和腿部对局部皮肤加热的初始血管舒张峰值的差异是由于感觉神经的作用。

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感觉神经对前臂和腿部皮肤因局部皮肤受热而发生血管舒张的作用。

The contribution of sensory nerves to cutaneous vasodilatation of the forearm and leg to local skin heating.

作者信息

机构信息

出版信息

PURPOSE

METHOD

RESULTS

CONCLUSION

目的

方法

结果

结论

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