Evidence for differential control of muscle sympathetic fibres in humans

人类肌肉交感纤维差异控制的证据

• 批准号: RGPIN-2015-06019
• 负责人: Millar, Philip
• 金额: $ 2.04万
• 依托单位: University of Guelph
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2017
• 资助国家: 加拿大
• 起止时间: 2017-01-01 至 2018-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=631536
• 关键词: Evidence; differential; control; muscle; sympathetic

The long-term goal of my research program is to advance our understanding of the mechanisms that control sympathetic nervous system (SNS) outflow and the circulation in humans. Activation of the SNS leads to increased heart rate, retention of water and sodium, and vasoconstriction of blood vessels. These actions make the SNS important for controlling blood pressure, a necessity to drive blood flow and deliver nutrients throughout the body. To understand the mechanisms responsible for maintaining circulatory homeostasis we need to know how sympathetic outflow is regulated. Our view of the SNS has been shaped by the methods available to measure outflow.  Initially, we thought that sympathetic outflow occurred in a general systemic fashion throughout the whole body. This concept was overturned with the discovery that measurements of regional sympathetic activity could be different to individuals organs (e.g. to the heart, kidneys, muscle). Using a state-of-the-art method, my recent work, the first in humans, suggests that in older or diseased subjects regulation of sympathetic outflow can extend to the control of individual sympathetic fibres (or single-units) within a nerve. This means that individual fibres can be increased or decreased separately, providing greater sensitivity in optimizing the sympathetic response to a perturbation. We will now use this technically demanding method, not available in many laboratories in Canada, to measure the behaviour of individual sympathetic fibres in order to establish conclusively that sympathetic outflow is regulated at the individual fibre level.  To answer this question, we need to demonstrate consistently that individual fibres can be differentially regulated in normal young subjects and in response to a variety of afferent stimuli. The short-term objectives of the proposal are to address these knowledge gaps. We have three main aims to address in this short-term research proposal, with each investigating the concepts of differential control and the regulation of muscle sympathetic single-units. We will conduct studies designed to test whether muscle sympathetic single-units can be individually regulated (evidenced by two single-unit sub-populations with opposite discharge characteristics) in response to selective afferent stimulation or an integrated exercise challenge (leg cycling); the functional impact of single-unit firing pattern on blood flow; and the mechanisms responsible for controlling the firing of sympathetic single-units. The novel results of these studies will provide fundamental information on the organization and regulation of the SNS in humans. This will have broad applications for identifying the mechanisms responsible for the homeostatic control of blood pressure at rest and during perturbations, such as exercise.

我的研究计划的长期目标是推进我们对控制交感神经系统（SNS）流出和人类循环的机制的理解。SNS的激活导致心率增加、水和钠的保留以及血管的血管收缩。这些动作使得SNS对于控制血压非常重要，这是驱动血液流动并在整个身体内提供营养的必要条件。为了了解维持循环稳态的机制，我们需要知道交感神经流出是如何调节的。我们对交感神经系统的看法是由测量交感神经流出的方法形成的，最初，我们认为交感神经流出是以全身性的方式发生的。这一概念被推翻的发现，区域交感神经活动的测量可能是不同的个人器官（如心脏，肾脏，肌肉）。使用最先进的方法，我最近的工作，第一次在人类身上，表明在老年人或患病的受试者中，交感神经流出的调节可以扩展到控制神经内的单个交感神经纤维（或单个单位）。这意味着可以单独增加或减少单个纤维，从而在优化交感神经对扰动的响应时提供更大的灵敏度。现在，我们将使用这种技术上要求很高的方法，在加拿大的许多实验室都没有，来测量单个交感神经纤维的行为，以便最终确定交感神经流出在单个纤维水平上受到调节。为了回答这个问题，我们需要始终如一地证明，在正常的年轻受试者中，单个纤维可以受到不同的调节，并对各种传入刺激做出反应。该提案的短期目标是填补这些知识空白。我们有三个主要目标，以解决在这个短期的研究建议，每个调查的概念，差分控制和肌肉交感神经单单位的调节。我们将进行旨在测试肌肉交感神经单单位是否可以单独调节（由两个具有相反放电特征的单单位亚群证明）以响应选择性传入刺激或综合运动挑战（腿部骑行）;单单位放电模式对血流的功能影响;以及负责控制交感神经单单位放电的机制。这些研究的新结果将为人类SNS的组织和调节提供基本信息。这将有广泛的应用，以确定机制，负责在休息和扰动，如运动期间的血压的稳态控制。