Synergetic interpretation of patterned vasomotor activity in microvascular perfusion: discrete effects of myogenic and neurogenic vasoconstriction as well as arterial and venous pressure fluctuations.

H Schmid-Schönbein, S Ziege, R Grebe, V Blazek, R Spielmann, F Linzenich
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引用次数: 36

Abstract

Synergetic concepts allow to identify emergent coordination phenomena between interacting physiological systems, for example between the cutaneous microcirculation, the sympathetic nervous system and the cardiac and pulmonary systems. The temporal patterns (oscillations of various frequencies) that are found in the data obtained with laser-Doppler anemometers (LDA; e.g. Periflux 2 used in the study) can be investigated by simultaneous recording of photoplethysmographic data obtained in the identical region of interest, as well as in cutaneous regions treated with vasoparalytic procedures which permit to record the dynamics of the arterial system. These strategies were applied to studies in the cutaneous microcirculation (volar side of the index fingers) as well as to mucosal microcirculation (maxillar gingiva) in healthy subjects and in patients suffering from autonomic dysfunction (cutaneous microcirculation) or gingivitis. By this procedure, it could be corroborated that - contrary to popular notions - the temporal fluctuations in the LDA records do not necessarily reflect myogenic vasomotion, but can have multiple causes. In a confirming recent study [Schmid-Schönbein et al., J Auton Nerv Syst, 57, 136-140, 1996], we have demonstrated that the LDA fluctuations under conditions of normal ambient temperature and hand position most likely reflect neurogenic vasoconstriction. Under exceptional conditions, different patterns emerge. Prolonged exposure to ambient temperature (18 degrees C) leads to marked vasoconstriction, with occasional vasodilator escape ('miniature hunting reaction'). Normal subjects under gravitational load and in warm environment (28 degrees C ambient) silence their neurogenetic vasoconstriction reactions, which allows sinusoidal vasomotion to dominate. A similar phenomenon is seen in neuropathic patients at 21-24 degrees C (presumably due to structural defects). Fluctuations in LDA signal taken from the healthy gingiva are entrained to arterial, those taken from inflamed gingiva to respiratory activity. The theory and practice of nonlinear analysis is discussed, and data compression procedures allowing to portray characteristic temporal patterns for future diagnostic procedures are presented.

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微血管灌注血管舒缩活动模式的协同解释:肌源性和神经源性血管收缩以及动脉和静脉压力波动的离散效应。
协同概念允许识别相互作用的生理系统之间的紧急协调现象,例如在皮肤微循环,交感神经系统和心肺系统之间。在激光多普勒风速计(LDA)获得的数据中发现的时间模式(各种频率的振荡);例如,研究中使用的Periflux 2)可以通过同时记录在相同感兴趣区域获得的光容积脉搏波数据来进行调查,也可以通过血管麻痹手术记录动脉系统动态的皮肤区域。这些策略被应用于研究皮肤微循环(食指掌侧)以及粘膜微循环(上颌龈)的健康受试者和患有自主神经功能障碍(皮肤微循环)或牙龈炎的患者。通过这个程序,可以证实,与流行的观念相反,LDA记录的时间波动不一定反映肌源性血管舒缩,但可能有多种原因。在最近的一项研究中[Schmid-Schönbein et al., J Auton Nerv system, 57, 136-140, 1996],我们证明了在正常环境温度和手的位置下LDA的波动很可能反映了神经源性血管收缩。在特殊条件下,会出现不同的模式。长时间暴露在环境温度下(18摄氏度)会导致明显的血管收缩,偶尔会出现血管扩张剂逃逸(“微型狩猎反应”)。正常受试者在重力负荷和温暖环境(28℃环境)下,其神经遗传性血管收缩反应沉默,这使得正弦血管舒张占主导地位。在21-24℃的神经病患者中也有类似的现象(可能是由于结构缺陷)。从健康牙龈采集的LDA信号的波动被传递到动脉,从炎症牙龈采集的LDA信号被传递到呼吸活动。讨论了非线性分析的理论和实践,并提出了数据压缩程序,以描绘未来诊断程序的特征时间模式。
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Measurement of blood perfusion in the dental pulp with laser Doppler flowmetry. Vascular smooth muscle, a multiply feedback-coupled system of high versatility, modulation and cell-signaling variability. Long-term registration of cutaneous microcirculation during general anesthesia. Synergetic interpretation of patterned vasomotor activity in microvascular perfusion: discrete effects of myogenic and neurogenic vasoconstriction as well as arterial and venous pressure fluctuations. Cardiovascular monitoring of elective aortic aneurysm repair using methods of chaos analysis.
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