钾对麻醉猫颈动脉体化学感受器放电的影响。
The effect of potassium on carotid body chemoreceptor discharge in the anaesthetized cat.
作者信息
Band D M, Linton R A
出版信息
J Physiol. 1986 Dec;381:39-47. doi: 10.1113/jphysiol.1986.sp016311.
Abstract
- In exercise the arterial plasma potassium rises; we have investigated the possibility that such rises might affect the carotid body chemoreceptor. 2. Intravenous infusions of KCl were used to produce hyperkalaemia in anaesthetized cats. 3. Intra-arterial catheter tip potassium electrodes were used to monitor changes in plasma potassium. 4. The effects of 5 min infusions of KCl on afferent carotid chemoreceptor preparations were studied. 5. Infusions of KCl, which produced increases in plasma potassium similar to those occurring in exercise in man, caused an initial large increase in mean firing frequency (237% of control). A phase of rapid adaptation of this response was followed by a phase of slower adaptation, but after 5 min of hyperkalaemia mean firing frequency was still significantly greater than control. The amplitude of the breath-by-breath oscillation in frequency appeared to increase in parallel with mean frequency so that the amplitude/mean ratio remained constant. 6. We conclude that plasma potassium changes during exercise may contribute to the chemical drive to breathe.
摘要
- 在运动过程中,动脉血浆钾含量会升高;我们研究了这种升高可能影响颈动脉体化学感受器的可能性。2. 通过静脉输注氯化钾在麻醉猫身上诱发高钾血症。3. 使用动脉内导管尖端钾电极监测血浆钾的变化。4. 研究了输注5分钟氯化钾对传入性颈动脉化学感受器制剂的影响。5. 输注氯化钾使血浆钾升高,其幅度与人运动时相似,导致平均放电频率最初大幅增加(为对照值的237%)。该反应先有一个快速适应阶段,随后是一个缓慢适应阶段,但在高钾血症5分钟后,平均放电频率仍显著高于对照值。逐次呼吸的频率振荡幅度似乎与平均频率平行增加,因此幅度/平均比值保持恒定。6. 我们得出结论,运动过程中血浆钾的变化可能有助于增强呼吸的化学驱动。
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