人颏舌肌在应对高碳酸血症时的运动单位募集。
Motor unit recruitment in human genioglossus muscle in response to hypercapnia.
机构信息
School of Psychological Science, University of melbourne, Parkville, Australia.
出版信息
Sleep. 2010 Nov;33(11):1529-38.
STUDY OBJECTIVES
single motor unit recordings of the genioglossus (GG) muscle indicate that GG motor units have a variety of discharge patterns, including units that have higher discharge rates during inspiration (inspiratory phasic and inspiratory tonic), or expiration (expiratory phasic and expiratory tonic), or do not modify their rate with respiration (tonic). Previous studies have shown that an increase in GG muscle activity is a consequence of increased activity in inspiratory units. However, there are differences between studies as to whether this increase is primarily due to recruitment of new motor units (motor unit recruitment) or to increased discharge rate of already active units (rate coding). Sleep-wake state studies in humans have suggested the former, while hypercapnia experiments in rats have suggested the latter. In this study, we investigated the effect of hypercapnia on GG motor unit activity in humans during wakefulness.
SETTING
sleep research laboratory.
PARTICIPANTS
sixteen healthy men.
MEASUREMENTS AND RESULTS
each participant was administered at least 6 trials with P(et)CO(2) being elevated 8.4 (SD = 1.96) mm Hg over 2 min following a 30-s baseline. Subjects were instrumented for GG EMG and respiratory measurements with 4 fine wire electrodes inserted subcutaneously into the muscle. One hundred forty-one motor units were identified during the baseline: 47% were inspiratory modulated, 29% expiratory modulated, and 24% showed no respiratory related modulation. Sixty-two new units were recruited during hypercapnia. The distribution of recruited units was significantly different from the baseline distribution, with 84% being inspiratory modulated (P < 0.001). Neither units active during baseline, nor new units recruited during hypercapnia, increased their discharge rate as P(et)CO(2) increased (P > 0.05 for all comparisons).
CONCLUSIONS
increased GG muscle activity in humans occurs because of recruitment of previously inactive inspiratory modulated units.
研究目的
对颏舌肌(GG)的单一运动单位进行记录表明,GG 运动单位具有多种放电模式,包括在吸气(吸气相和吸气紧张)或呼气(呼气相和呼气紧张)期间放电率较高的单位,或不随呼吸改变其放电率的单位(紧张)。以前的研究表明,GG 肌肉活动的增加是吸气单位活动增加的结果。然而,关于这种增加主要是由于新运动单位的募集(运动单位募集)还是已有活动单位的放电率增加(率编码),不同研究之间存在差异。人类的睡眠-觉醒状态研究表明前者,而大鼠的高碳酸血症实验则表明后者。在这项研究中,我们研究了高碳酸血症对人类清醒时 GG 运动单位活动的影响。
设置
睡眠研究实验室。
参与者
16 名健康男性。
测量和结果
每个参与者至少进行了 6 次试验,在 30 秒基线后 2 分钟内将 P(et)CO(2)升高 8.4(SD=1.96)mmHg。研究对象在颏舌肌肌电图和呼吸测量方面插入了 4 根细金属丝电极,这些电极插入肌肉的皮下。在基线期间共确定了 141 个运动单位:47%为吸气调制,29%为呼气调制,24%无呼吸相关调制。在高碳酸血症期间募集了 62 个新单位。募集单位的分布与基线分布明显不同,84%为吸气调制(P<0.001)。无论是在基线期间活跃的单位,还是在高碳酸血症期间募集的新单位,其放电率都没有随着 P(et)CO(2)的增加而增加(所有比较的 P>0.05)。
结论
人类 GG 肌肉活动的增加是由于先前不活跃的吸气调制单位的募集。
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