氧分压变化是否会导致猫化学感受器放电的呼吸振荡?
Do oxygen tension variations contribute to the respiratory oscillations of chemoreceptor discharge in the cat?
作者信息
Kumar P, Nye P C, Torrance R W
机构信息
University Laboratory of Physiology, Oxford.
出版信息
J Physiol. 1988 Jan;395:531-52. doi: 10.1113/jphysiol.1988.sp016933.
Abstract
- A high-frequency high-flow ventilator has been developed which will produce abrupt changes in alveolar gas tensions. We have used it to study the individual contributions of PCO2 and PO2 in producing the oscillations which occur in the discharge of carotid chemoreceptors in the cat with respiration, by producing repeated end-tidal alternations (i) of PCO2 in constant hypoxia, (ii) of PO2 in constant normocapnia and (iii) of both PO2 and PCO2, i.e. of asphyxia. 2. The chemoreceptor response to alternations of PCO2 was always brisker than that to alternations of PO2 at 2, 4 or 8 s cycle durations. 3. An increase in the frequency of the alveolar alternation shortened the difference between the response times to PCO2 and PO2 but it increased the phase difference between the stimulus and the response waveforms. 4. With 4 s cycles, in normocapnic hypoxia, PCO2 was 2.9 times more effective (impulses s-1 Torr-1) than PO2 in producing oscillations in discharge. 5. The oscillations in discharge to simultaneous alternations of PO2 and PCO2 were not significantly different from the sum of individual oscillations to alternations of PCO2 and of PO2 alone. This was true with respect to timing and to amplitude of the oscillation. 6. Usually the amplitude of the chemoreceptor discharge oscillation in response to an asphyxial alternation was greater than the amplitude of the oscillation to either its PCO2 or its PO2 component alone. However, at the highest frequencies used, the phase relation between the PCO2 and PO2 components of the response could lead to the summed asphyxial response being less than its individual components. 7. The amplitudes and shapes of the oscillations in response to 4 s PCO2 alternations were not affected by changing either the steady-background PO2 or PCO2, but the amplitudes of the oscillations to pure PO2 alternations were enhanced by hypoxia and by hypercapnia. The importance of PO2 and PCO2 in giving rise to the natural respiratory oscillations in chemoreceptor discharge depends on the mean levels of the two gases. In normocapnic hypoxia (PO2 ca. 50 Torr) they are equally important but when PO2 is raised it becomes less important.
摘要
- 已研发出一种高频高流量呼吸机,它能使肺泡气体张力产生突然变化。我们利用它来研究在猫呼吸时,二氧化碳分压(PCO₂)和氧分压(PO₂)对颈动脉化学感受器放电过程中出现的振荡的各自贡献,方法是通过产生重复的呼气末交替变化:(i)在持续低氧状态下的PCO₂交替变化;(ii)在持续正常碳酸血症状态下的PO₂交替变化;(iii)PO₂和PCO₂两者的交替变化,即窒息状态下的交替变化。2. 在2秒、4秒或8秒的周期时长下,化学感受器对PCO₂交替变化的反应总是比对PO₂交替变化的反应更迅速。3. 肺泡交替变化频率的增加缩短了对PCO₂和PO₂反应时间的差异,但增加了刺激与反应波形之间的相位差。4. 在4秒的周期下,在正常碳酸血症性低氧状态下,PCO₂在产生放电振荡方面的效力(每秒每托[压力单位]的冲动数)是PO₂的2.9倍。5. 对PO₂和PCO₂同时交替变化时的放电振荡与对PCO₂和PO₂单独交替变化时的单个振荡之和并无显著差异。在振荡的时间和幅度方面都是如此。6. 通常,化学感受器对窒息性交替变化的放电振荡幅度大于对其单独的PCO₂或PO₂成分的振荡幅度。然而,在使用的最高频率下,反应的PCO₂和PO₂成分之间的相位关系可能导致总的窒息反应小于其各个成分。7. 对4秒PCO₂交替变化的振荡幅度和形状不受稳定背景PO₂或PCO₂变化的影响,但对纯PO₂交替变化的振荡幅度在低氧和高碳酸血症时会增强。PO₂和PCO₂在引发化学感受器放电的自然呼吸振荡中的重要性取决于这两种气体的平均水平。在正常碳酸血症性低氧状态(PO₂约50托)下它们同样重要,但当PO₂升高时它就变得不那么重要了。
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