Divergent expiratory braking activity of costal and crural diaphragm

IF 1.9 4区 医学 Q3 PHYSIOLOGY
Giovanni Tagliabue , Michael Ji , Danny J. Zuege , Paul A. Easton
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引用次数: 0

Abstract

Background

There is increasing clinical interest in understanding the contribution of the diaphragm in early expiration, especially during mechanical ventilation. However, current experimental evidence is limited, so essential activity of the diaphragm during expiration and diaphragm segmental differences in expiratory activity, are unknown.

Objectives

To determine if: 1) the diaphragm is normally active into expiration during spontaneous breathing and hypercapnic ventilation, 2) expiratory diaphragmatic activity is distributed equally among the segments of the diaphragm, costal and crural.

Methods

In 30 spontaneously breathing male and female canines, awake without confounding anesthetic, we measured directly both inspiratory and expiratory electrical activity (EMG), and corresponding mechanical shortening, of costal and crural diaphragm, during room air and hypercapnia.

Results

During eupnea, costal and crural diaphragm are active into expiration, showing significant and distinct expiratory activity, with crural expiratory activity greater than costal, for both magnitude and duration. This diaphragm segmental difference diverged further during progressive hypercapnic ventilation: crural expiratory activity progressively increased, while costal expiratory activity disappeared.

Conclusion

The diaphragm is not passive during expiration. During spontaneous breathing, expiratory activity -“braking”- of the diaphragm is expressed routinely, but is not equally distributed. Crural muscle “braking” is greater than costal muscle in magnitude and duration.

With increasing ventilation during hypercapnia, expiratory activity -“braking”- diverges notably. Crural expiratory activity greatly increases, while costal expiratory “braking” decreases in magnitude and duration, and disappears.

Thus, diaphragm expiratory "braking" action represents an inherent, physiological function of the diaphragm, distinct for each segment, expressing differing neural activation.

肋膜和胸膜的呼气制动活动存在差异。
背景:临床上越来越多的人希望了解膈肌在早期呼气中的作用,尤其是在机械通气过程中。然而,目前的实验证据有限,因此呼气时横膈膜的基本活动以及横膈膜在呼气活动中的节段性差异尚不清楚:目的:确定1) 在自主呼吸和高碳酸血症通气过程中,膈肌在呼气时是否正常活跃;2) 呼气膈肌活动是否在膈肌、肋肌和胸膜各节段之间平均分布:方法:在没有麻醉药干扰的清醒状态下,我们直接测量了30只自主呼吸的雌雄犬在室内空气和高碳酸血症状态下的吸气和呼气膈肌电活动(EMG)以及肋膜和胸膜相应的机械缩短:结果:在呼吸暂停时,肋膜和皱壁膈肌在呼气时都很活跃,表现出明显和独特的呼气活动,无论在幅度还是持续时间上,皱壁膈肌的呼气活动都大于肋膜。在进行性高碳酸血症通气时,这种膈肌节段差异进一步扩大:胸膜呼气活动逐渐增加,而肋膜呼气活动消失:结论:膈肌在呼气时并不是被动的。结论:膈肌在呼气时并不是被动的。在自主呼吸过程中,膈肌的呼气活动--"制动"--是常规表现,但分布不均。胸肌 "制动 "的幅度和持续时间都大于肋膜肌。在高碳酸血症期间,随着通气量的增加,呼气活动--"制动"--明显分化。胸膜呼气活动大大增加,而肋膜呼气 "制动 "的幅度和持续时间则减少并消失。因此,膈肌呼气 "制动 "动作代表了膈肌固有的生理功能,每个节段都不同,表现出不同的神经激活。
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来源期刊
CiteScore
4.80
自引率
8.70%
发文量
104
审稿时长
54 days
期刊介绍: Respiratory Physiology & Neurobiology (RESPNB) publishes original articles and invited reviews concerning physiology and pathophysiology of respiration in its broadest sense. Although a special focus is on topics in neurobiology, high quality papers in respiratory molecular and cellular biology are also welcome, as are high-quality papers in traditional areas, such as: -Mechanics of breathing- Gas exchange and acid-base balance- Respiration at rest and exercise- Respiration in unusual conditions, like high or low pressure or changes of temperature, low ambient oxygen- Embryonic and adult respiration- Comparative respiratory physiology. Papers on clinical aspects, original methods, as well as theoretical papers are also considered as long as they foster the understanding of respiratory physiology and pathophysiology.
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