Stick C, Grau H, Witzleb E
Institut für angewandte Physiologie, Universität Kiel, Federal Republic of Germany.
Eur J Appl Physiol Occup Physiol. 1989;59(1-2):39-47. doi: 10.1007/BF02396578.
During motionless standing an increased hydrostatic pressure leads to increased transcapillary fluid filtration into the interstitial space of the tissues of the lower extremities. The resulting changes in calf volume were measured using a mercury-in-silastic strain gauge. Following a change in body posture from lying to standing or sitting a two-stage change in calf volume was observed. A fast initial filling of the capacitance vessels was followed by a slow but continuous increase in calf volume during motionless standing and sitting with the legs dependent passively. The mean rates of this slow increase were about 0.17%.min-1 during standing and 0.12%.min-1 during sitting, respectively. During cycle ergometer exercise the plethysmographic recordings were highly influenced by movement artifacts. These artifacts, however, were removed from the recordings by low-pass filtering. As a result the slow volume changes, i.e. changes of the extravascular fluid were selected from the recorded signal. Contrary to the increases during standing and sitting the calf volumes of all 30 subjects decreased during cycle ergometer exercise. The mean decrease during 18 min of cycling (2-20 min) was -1.6% at 50 W work load and -1.9% at 100 W, respectively. This difference was statistically significant (p less than or equal to 0.01). The factors which may counteract the development of an interstitial edema, even during quiet standing and sitting, are discussed in detail. During cycling, however, three factors are most likely to contribute to the observed reduction in calf volume: (1) The decrease in venous pressure, which in turn reduces the effective filtration pressure.(ABSTRACT TRUNCATED AT 250 WORDS)
在静止站立时,增加的静水压力会导致经毛细血管的液体滤过增加,进入下肢组织的间质间隙。使用硅橡胶汞应变仪测量由此导致的小腿体积变化。从卧位变为站立位或坐位后,观察到小腿体积有两阶段变化。首先是容量血管快速充盈,随后在静止站立和双腿被动下垂坐位时,小腿体积缓慢但持续增加。这种缓慢增加的平均速率在站立时约为0.17%·min⁻¹,在坐位时约为0.12%·min⁻¹。在周期测力计运动期间,体积描记记录受到运动伪影的高度影响。然而,通过低通滤波从记录中去除了这些伪影。结果,从记录信号中选取了缓慢的体积变化,即血管外液的变化。与站立和坐位时的增加相反,所有30名受试者在周期测力计运动期间小腿体积均减小。在50 W工作负荷下骑行18分钟(2 - 20分钟)期间的平均减小率为 -1.6%,在100 W时为 -1.9%。这种差异具有统计学意义(p≤0.01)。详细讨论了即使在安静站立和坐位时也可能抵消间质水肿发展的因素。然而,在骑行期间,三个因素最有可能导致观察到的小腿体积减小:(1)静脉压力降低,这反过来又降低了有效滤过压。(摘要截短于250字)
