Parisi R A, Santiago T V, Edelman N H
Department of Medicine, UMDNJ-Robert Wood Johnson Medical School, New Brunswick 08903-0019.
Am Rev Respir Dis. 1988 Sep;138(3):610-6. doi: 10.1164/ajrccm/138.3.610.
Activation of pharyngeal dilator muscles, such as the genioglossus, during hypoxia must be sufficient to overcome the increased subatmospheric pressure generated by the diaphragm. This is particularly important during sleep, when upper airway resistance is greater. We measured ventilatory, genioglossal (EMGgg) and diaphragmatic (EMGdi) electromyogram responses to isocapnic hypoxia during wakefulness (W), slow-wave sleep (SWS), and rapid eye movement (REM) sleep in seven chronically instrumented adult goats. We also compared the EMG responses to hypoxia to response to CO2 during W. delta EMGdi/delta SaO2 decreased progressively from W to SWS (p less than 0.05) to REM sleep (p less than 0.05 versus SWS), paralleling the corresponding ventilatory responses. EMGgg was activated only below an SaO2 threshold, similar during W (69.8 +/- 6.3%) and SWS (67.2 +/- 4.3%), beyond which there was a brisk linear increase. During REM sleep, arousal preceded activation of EMGgg in each animal, although SaO2 at arousal (61.3 +/- 4.4%) was less than the SaO2 threshold for EMGgg activation during W or SWS (p less than 0.05). Despite state-related differences in the individual muscle responses, simultaneous EMGgg and EMGdi during hypoxia or hypercapnia in W, and during hypoxia in SWS and REM sleep, were linked in a constant manner. This suggests common integration of central and peripheral chemoreceptor inputs. Furthermore, these relationships are unaffected by either SWS or REM sleep.
在缺氧期间,诸如颏舌肌等咽部扩张肌的激活必须足以克服膈肌产生的增大的低于大气压的压力。这在睡眠期间尤为重要,因为此时上呼吸道阻力更大。我们在七只长期植入仪器的成年山羊中,测量了清醒(W)、慢波睡眠(SWS)和快速眼动(REM)睡眠期间,对等碳酸血症性缺氧的通气、颏舌肌(EMGgg)和膈肌(EMGdi)肌电图反应。我们还比较了清醒时缺氧与二氧化碳刺激的肌电图反应。从清醒到慢波睡眠(p<0.05)再到快速眼动睡眠(与慢波睡眠相比,p<0.05),ΔEMGdi/ΔSaO2逐渐降低,与相应的通气反应平行。EMGgg仅在低于SaO2阈值时被激活,清醒(69.8±6.3%)和慢波睡眠(67.2±4.3%)时相似,超过该阈值后呈快速线性增加。在快速眼动睡眠期间,每只动物在EMGgg激活之前先出现觉醒,尽管觉醒时的SaO2(61.3±4.4%)低于清醒或慢波睡眠时EMGgg激活的SaO2阈值(p<0.05)。尽管个体肌肉反应存在与状态相关的差异,但在清醒时缺氧或高碳酸血症期间,以及慢波睡眠和快速眼动睡眠期间缺氧时,同时出现的EMGgg和EMGdi以恒定方式相关联。这表明中枢和外周化学感受器输入存在共同整合。此外,这些关系不受慢波睡眠或快速眼动睡眠的影响。
