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本文引用的文献

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The regulation of respiration and circulation during the initial stages of muscular work.肌肉工作初始阶段的呼吸与循环调节
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Cardiac output as a controller of ventilation through changes in right ventricular load.心输出量通过右心室负荷变化作为通气的控制器。
J Appl Physiol Respir Environ Exerc Physiol. 1982 Jul;53(1):218-24. doi: 10.1152/jappl.1982.53.1.218.
3
Is the voluntary control of exercise in man necessary for the ventilatory response?人类运动的自主控制对于通气反应是否必要?
J Physiol. 1984 Oct;355:71-83. doi: 10.1113/jphysiol.1984.sp015407.
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Respiratory physiology of exercise: metabolism, gas exchange, and ventilatory control.运动的呼吸生理学:新陈代谢、气体交换与通气控制。
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Cross-circulation experiments on the mechanism of the natriuresis during saline loading in the dog.关于狗在盐水负荷期间利钠机制的交叉循环实验。
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Stroke volume in conscious dogs; effect of respiration, posture, and vascular occlusion.清醒犬的心输出量;呼吸、体位和血管阻塞的影响。
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Cardiodynamic hyperpnea: hyperpnea secondary to cardiac output increase.
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8
Ventilation at transition from rest to exercise.从休息到运动过渡时的通气情况。
Acta Physiol Scand. 1973 Sep;89(1):68-78. doi: 10.1111/j.1748-1716.1973.tb05498.x.
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Hypopnea consequent to reduced pulmonary blood flow in the dog.犬肺血流量减少导致的呼吸浅慢。
J Appl Physiol Respir Environ Exerc Physiol. 1979 Jun;46(6):1171-7. doi: 10.1152/jappl.1979.46.6.1171.

人体对自愿运动和电刺激运动的早期循环和通气反应。

The early circulatory and ventilatory response to voluntary and electrically induced exercise in man.

作者信息

Adams L, Guz A, Innes J A, Murphy K

机构信息

Department of Medicine, Charing Cross and Westminster Medical School, London.

出版信息

J Physiol. 1987 Feb;383:19-30. doi: 10.1113/jphysiol.1987.sp016393.

DOI:10.1113/jphysiol.1987.sp016393
PMID:3116204
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1183054/
Abstract
  1. The ventilatory and circulatory responses to electrically induced leg exercise (EEL) were studied in seven normal subjects and compared with the responses to performing the same exercise voluntarily (EV). 2. EEL was produced by surface electrode stimulation of the quadriceps and hamstring muscle groups. This produced a push-relax pattern of exercise against a spring load and was free of any pain or discomfort. EV, at the same level, was achieved by subjects copying a display of timing and force information on a storage oscilloscope. 3. Cardiac output was estimated using validated Doppler ultrasound measurements of the velocity in the ascending aorta, combined with an estimate of aortic cross-sectional area using M-mode echocardiography. 4. Data from EV and EEL exercise runs were matched, within subjects, for the increase in oxygen consumption during the first 30 s of exercise; there were no significant differences between the resting states prior to either form of exercise. 5. The first ten beats of exercise were used to study the circulatory on-transient. The cardiac output responses to both EV and EEL were similar; however, in EV alone there was an initial significant drop in stroke volume and a slightly greater rise in heart rate. 6. The first five breaths of the response were used to study the ventilatory on-transient, and by measuring cardiac output, stroke volume and heart rate throughout each breath, the relationship between circulatory and ventilatory variables could be assessed. Ventilation showed a significantly greater rise at the onset of exercise during EV than during EEL; PET,CO2 (end-tidal CO2 pressure) showed small but significant falls for both EV and EEL. 7. The circulatory changes on a breath-by-breath basis are similar for EV and EEL although the ventilatory changes differ. In both EV and EEL the average increase in ventilation at the onset of exercise is proportionally greater than the average increases in cardiac output. Individual exercise runs show no particular relationship between circulatory and ventilatory change. 8. The results provide no support in man during mild leg exercise for a 'cardiodynamic' drive to breathing.
摘要
  1. 对7名正常受试者进行了研究,观察其对电刺激诱发腿部运动(EEL)的通气和循环反应,并与自愿进行相同运动(EV)的反应进行比较。2. 通过表面电极刺激股四头肌和腘绳肌群产生EEL。这产生了一种对抗弹簧负荷的推-松运动模式,且无任何疼痛或不适。在相同水平下,受试者通过模仿存储示波器上显示的时间和力量信息来实现EV。3. 使用经验证的多普勒超声测量升主动脉流速,并结合M型超声心动图估计主动脉横截面积来估算心输出量。4. 在受试者内部,将EV和EEL运动试验的数据进行匹配,使其在运动的前30秒内耗氧量的增加量相同;两种运动形式之前的静息状态之间无显著差异。5. 运动的前10次心跳用于研究循环的瞬态变化。EV和EEL的心输出量反应相似;然而,仅在EV中,搏出量最初有显著下降,心率上升幅度略大。6. 反应的前5次呼吸用于研究通气的瞬态变化,通过在每次呼吸过程中测量心输出量、搏出量和心率,可以评估循环和通气变量之间的关系。运动开始时,EV期间的通气上升幅度明显大于EEL期间;呼气末二氧化碳分压(PET,CO2)在EV和EEL中均有小幅但显著的下降。7. EV和EEL在逐次呼吸基础上的循环变化相似,尽管通气变化不同。在EV和EEL中,运动开始时通气的平均增加量在比例上均大于心输出量的平均增加量。个体运动试验显示循环和通气变化之间无特定关系。8. 研究结果表明,在轻度腿部运动期间,人体中不存在支持呼吸“心动力”驱动的证据。