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INTERACTION OF CARDIOVASCULAR REFLEXES IN THERMAL STRAIN

热应变中心血管反射的相互作用

基本信息

批准号：
2750330
负责人：
GARY W MACK
金额：
$ 17.15万
依托单位：
JOHN B. PIERCE LABORATORY, INC.
依托单位国家：
美国
项目类别：
财政年份：
1988
资助国家：
美国
起止时间：
1988-09-30 至 2000-05-31
项目状态：
已结题

项目摘要

It is well documented that aerobic exercise training provides an individual with a pronounced thermoregulatory and circulatory advantage during exercise in the heat. The ability to prevent excessive hyperthermia during conditions of high thermal and circulatory strain is dependent on a complex interaction between reflexes that regulate heat dissipating mechanisms and non-thermoregulatory (circulatory) reflexes. The long-term objectives of this project are to describe the physiological mechanisms involved in the interaction between control systems which regulated arterial blood pressure and those which regulate body temperature. We are particularly interested in baroreflex control of cutaneous vasoconstrictor activity and how it is influenced by thermal status and/or physical fitness. Our specific aims of over the next five years are: l) to characterize spatial heterogeneities in baroreflex mediated cutaneous vasoconstriction 2) to demonstrate attenuated baroreceptor mediated increases in sympathetic vasoconstrictor activity in hyperthermic humans. 3) to identify the mechanism by which thermoregulatory responses to thermal stress are attenuated by baroreceptor unloading. 4) to examine the role of oropharyngeal reflexes in reversing the inhibitory influence of dehydration on heat loss mechanisms in thermally stressed humans. To accomplish these goals we will create topographical perfusion maps of relatively large areas of the skin microvasculature with the aid of a computer-guided stereotaxic laser Doppler velocimetry system, monitor sympathetic vasoconstrictor nerve activity directly via microneurographic techniques, and modify local sympathetic adrenergic responses in the skin with selective adrenergic blocking agents. We will relate the circulatory and thermoregulatory responses (i.e. changes in sympathetic nerve activity, skin blood flow, or sweating) to their primary physiological stimuli (i.e. changes in central venous or carotid artery pressure or body core temperature). We expect to demonstrate that baroreflex control of circulatory function is altered by the thermal status of the individual and is dependent, in part, on their level of aerobic fitness. In addition, we expect to demonstrate that the interaction between baroreceptor and thermoregulatory control of skin blood flow occurs at a site more proximal than the cutaneous arterioles. Thermal status will be manipulated using passive heating and/or exercise while baroreceptor mediated increases in sympathetic nerve activity will be accomplished by application of lower body negative pressure and/or carotid neck pressure. These studies should improve our understanding of the control of arterial blood pressure during conditions of thermal stress and provide new knowledge about the mechanisms that humans employ to resist syncope in conditions of high circulation and thermal stress.

众所周知，有氧运动训练提供了一种具有明显体温调节和循环优势的个体在炎热的天气下锻炼时。防止过度使用的能力在高热和循环紧张条件下的体温过高依赖于调节热量的反射之间的复杂相互作用消散机制和非体温调节(循环)反射。该项目的长期目标是描述控制之间相互作用的生理机制调节动脉血压的系统和调节动脉血压的系统体温。我们对压力反射控制特别感兴趣皮肤血管收缩活性及其受热的影响状态和/或身体健康。我们未来五年的具体目标年：L)刻画压力反射的空间非均质性介导的皮肤血管收缩2)以显示减弱压力感受器介导的交感血管收缩活动增加在体温过高的人类身上。3)确定通过什么机制对热应激的体温调节反应通过以下方式减弱压力感受器卸货。4)检查口咽反射的作用逆转脱水对热损失的抑制作用热应激人类的机制。为了实现这些目标，我们将创建相对较大区域的地形灌注图计算机引导立体定向激光辅助皮肤微血管研究监测交感血管收缩神经的多普勒测速系统直接通过显微神经学技术进行活动，并修改局部选择性肾上腺素能皮肤的交感肾上腺素能反应封闭剂。我们将把循环和体温调节联系起来。反应(即交感神经活动、皮肤血流量、或出汗)对它们的主要生理刺激(即中心静脉或颈动脉压或体温)。我们希望证明压力感受性反射对循环功能的控制被个体的体温状态改变，并依赖于部分，取决于他们的有氧健身水平。此外，我们预计将证明压力感受器和压力感受器之间的相互作用皮肤血流的体温调节控制发生在更多的部位比皮肤小动脉近端。热状态将为在压力感受器的同时使用被动加热和/或锻炼进行操作交感神经活动的介导性增加将通过应用下半身负压和/或颈动脉颈压。这些研究将提高我们对动脉控制的理解。在热应激条件下的血压和提供新的关于人类用来抵抗晕厥的机制的知识高循环和热应力的条件。