人体皮肤冷却过程中的交感神经系统活动:与刺激强度和疼痛感觉的关系。
Sympathetic nervous system activity during skin cooling in humans: relationship to stimulus intensity and pain sensation.
作者信息
Kregel K C, Seals D R, Callister R
机构信息
Department of Exercise and Sport Sciences, University of Arizona, Tucson 85721.
出版信息
J Physiol. 1992 Aug;454:359-71. doi: 10.1113/jphysiol.1992.sp019268.
Abstract
- Our aim was to determine the relationship between efferent sympathetic nervous system activity to skeletal muscle (MSNA) and both the dynamics of the stimulus and pain sensation during localized skin cooling in humans. MSNA in the lower leg (peroneal microneurography), heart rate, arterial blood pressure, hand skin and muscle temperatures and perceptions of pain were recorded in ten healthy subjects before, during and after immersion (3 min) of a hand in water of different temperatures ranging from non-noxious to extremely noxious (28, 21, 14, 7 and 0 degrees C). 2. Immersion produced an abrupt, water temperature-dependent fall in hand skin temperature (initial 30 s) followed by a more gradual decline. In contrast, the fall in hand muscle temperature was almost linear during immersion. Throughout immersions at the 28, 21, and 14 degrees C water temperatures and during the initial phase of the 7 degrees C level, sensations ranged from not painful to somewhat painful; however, the latter phase of the 7 degrees C immersion and the entire 0 degrees C level were perceived as intensely painful. 3. During the initial 15-30 s of immersion at the 21-7 degrees C water temperatures, MSNA decreased from control levels in all subjects (47-58% on average, P < 0.05), whereas mean arterial blood pressure did not change. MSNA then returned to and remained at control levels throughout the 28-14 degrees C immersions, although arterial pressure, primarily systolic, rose slightly. 4. After some delay, MSNA increased during immersion at both the 7 degrees C (P < 0.05 at 90 s) and 0 degrees C (P < 0.05 at 60 s) levels in a progressive, water temperature-dependent manner, achieving peak values of approximately 200 and 300% of control, respectively, by 2.0-2.5 min. These elevations in MSNA were associated with parallel increases in arterial pressure. 5. Heart rate rose during the onset of immersion at all water temperatures (P < 0.05), but fell rapidly to control levels after 60-90 s. The increases were small (approximately 5 beats/min) and similar at the 28-7 degrees C levels, but were twice as great at the coldest water temperature.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
- 我们的目的是确定人体局部皮肤冷却过程中,传出性交感神经系统对骨骼肌的活动(肌肉交感神经活动,MSNA)与刺激动态及疼痛感觉之间的关系。在十名健康受试者将手浸入不同温度(从无害到极有害,分别为28、21、14、7和0摄氏度)的水中之前、期间和之后,记录其小腿的MSNA(腓骨微神经ography)、心率、动脉血压、手部皮肤和肌肉温度以及疼痛感知。2. 浸入导致手部皮肤温度在最初30秒内随水温急剧下降,随后下降更为平缓。相比之下,手部肌肉温度在浸入过程中几乎呈线性下降。在28、21和14摄氏度水温的整个浸入过程以及7摄氏度水平的初始阶段,感觉从无痛到有点痛;然而,7摄氏度浸入的后期阶段和整个0摄氏度水平被认为非常疼痛。3. 在21至7摄氏度水温浸入的最初15至30秒内,所有受试者的MSNA均从对照水平下降(平均下降47 - 58%,P < 0.05),而平均动脉血压未改变。然后,在28至14摄氏度的浸入过程中,MSNA恢复并保持在对照水平,尽管动脉压(主要是收缩压)略有上升。4. 经过一段时间延迟后,在7摄氏度(90秒时P < 0.05)和0摄氏度(60秒时P < 0.05)水平浸入时,MSNA以与水温相关的渐进方式增加,到第2.0 - 2.5分钟时,分别达到对照值的约200%和300%的峰值。MSNA的这些升高与动脉压的平行升高相关。5. 在所有水温下浸入开始时心率均上升(P < 0.05),但在60 - 90秒后迅速降至对照水平。升高幅度较小(约5次/分钟),在28至7摄氏度水平时相似,但在最冷的水温下升高幅度是其两倍。(摘要截断于400字)
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