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改变平均压力、脉压和脉搏频率对兔主动脉弓和右锁骨下动脉压力感受器纤维冲动活动的影响。

The effects of altering mean pressure, pulse pressure and pulse frequency on the impulse activity in baroreceptor fibres from the aortic arch and right subclavian artery in the rabbit.

作者信息

Angell James J E

出版信息

J Physiol. 1971 Apr;214(1):65-88. doi: 10.1113/jphysiol.1971.sp009419.

DOI:10.1113/jphysiol.1971.sp009419
PMID:5575377
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1331822/
Abstract
  1. A method is described for perfusing an isolated preparation of the rabbit aortic arch with independently controlled mean pressure, pulse pressure and pulse frequency.2. Recordings made from single or few-fibre preparations from the aortic arch and right subclavian baroreceptor regions show that the number of impulses per second or per cycle in a single fibre is the same during pulsatile perfusion as during non-pulsatile perfusion if the pressure is above the threshold pressure to non-pulsatile perfusion during all phases of the pressure cycle.3. In multi-fibre recordings the total number of impulses is greater during pulsatile perfusion than during non-pulsatile perfusion due largely to recruitment of fibres during systole.4. The relationship between instantaneous impulse frequency and aortic arch pressure during one pressure cycle forms an elliptiform curve.5. Increasing the pulse pressure increases the ellipse and causes additional recruitment of other fibres during systole, thus augmenting the total impulse activity.6. Increasing the pulse frequency reduces the number of impulses per cycle for single fibres but produces a small increase in the total impulse frequency in one second period due to recruitment.7. Increasing the rate of change of pressure by increasing the pulse pressure or pulse frequency produced a small reduction or no change of the threshold pressure. Similarly the ;cut off' pressure was elevated in some fibres.8. At low initial mean pressures, an increment of pressure, at constant pulse pressure and pulse frequency, increases the total impulse activity by increasing the frequency of impulses in single fibres already active during systole and diastole and by additional recruitment of other fibres. At higher mean pressures there is little increase in impulse activity as the maximum frequency of fibres is attained or superseded and there is little recruitment.
摘要

  1. 本文描述了一种用于灌注兔主动脉弓离体标本的方法,该方法可独立控制平均压力、脉压和脉搏频率。

  2. 从主动脉弓和右锁骨下压力感受器区域的单纤维或少数纤维标本所做的记录表明,如果在压力周期的所有阶段压力均高于非搏动性灌注的阈值压力,那么在搏动性灌注期间单根纤维每秒或每周期的冲动数量与非搏动性灌注期间相同。

  3. 在多纤维记录中,搏动性灌注期间的总冲动数量比非搏动性灌注期间更多,这主要是由于在收缩期纤维的募集。

  4. 在一个压力周期内,瞬时冲动频率与主动脉弓压力之间的关系形成一条椭圆形曲线。

  5. 增加脉压会使椭圆增大,并导致在收缩期额外募集其他纤维,从而增强总冲动活动。

  6. 增加脉搏频率会减少单根纤维每周期的冲动数量,但由于募集作用,在一秒时间段内总冲动频率会有小幅增加。

  7. 通过增加脉压或脉搏频率来提高压力变化率,会使阈值压力有小幅降低或无变化。同样,一些纤维的“截止”压力会升高。

  8. 在低初始平均压力下,在脉压和脉搏频率恒定的情况下增加压力,会通过增加在收缩期和舒张期已活跃的单根纤维的冲动频率以及额外募集其他纤维来增加总冲动活动。在较高平均压力下,随着纤维的最大频率达到或超过,冲动活动几乎没有增加,且几乎没有募集现象。

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