Airway mechanics alters generation of cough motor pattern

IF 1.9 4区 医学 Q3 PHYSIOLOGY Respiratory Physiology & Neurobiology Pub Date : 2024-08-14 DOI:10.1016/j.resp.2024.104315
Ivan Poliacek , Marcel Veternik , Lukas Martvon , Zuzana Kotmanova , Lucia Babalova , Lucia Cibulkova , Denisa Berikova , Jana Plevkova , Teresa Pitts , Silvia Adzimova , Michal Simera
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Abstract

Effects of sequential increase in airway resistance: no, low (5 kPa.s/l), high (24 kPa.s/l), and complete block in the inspiratory or expiratory phase of mechanically induced cough on the cough motor pattern were studied in 16 anesthetized (pentobarbital) spontaneously breathing cats (3.70±0.15 kg, 11♂, 5♀). Esophageal pressure and electromyographic activities of the diaphragm during inspiration and abdominal muscles during expiration were analyzed. No significant changes in the number of coughs occurred. Inspiratory occlusion caused a prolongation of cough inspiratory phase, cough inspiratory diaphragm activity, and all cough-related activity. Inspiratory occlusion along with high resistance increased inspiratory esophageal pressure amplitude, total cough cycle duration and the time between maximum activity of the diaphragm and abdominal muscles. High expiratory resistance and occlusion resulted in increased cough expiratory esophageal pressure amplitude, a longer active portion of cough expiration, and cough abdominal activity. Expiratory occlusion also prolonged cough expiratory phase, all cough activity, and total cough cycle. Significantly increased airway resistance and occlusion induce secondary, in addition to mechanical, changes in cough by significantly modulating the generated cough motor pattern. A certain level of resistance appears to be successfully compensated, resulting in minimal changes in coughing characteristics, including expiratory airflow and the rising time of the airflow. Afferent feedback from the respiratory tract, particularly volume feedback, represents a significant factor in modulating cough, mainly under various pathological conditions in the respiratory system.

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气道力学改变了咳嗽运动模式的产生。
研究了 16 只麻醉(戊巴比妥)的自主呼吸猫(3.70±0.15kg,11♂,5♀)在机械诱导咳嗽的吸气或呼气阶段气道阻力依次增加:无、低(5 kPa.s/l)、高(24 kPa.s/l)和完全阻断对咳嗽运动模式的影响。分析了食道压力以及吸气时横膈膜和呼气时腹部肌肉的肌电活动。咳嗽次数无明显变化。吸气闭塞导致咳嗽吸气期、咳嗽吸气膈肌活动和所有与咳嗽有关的活动延长。吸气阻塞和高阻力会增加吸气食管压力幅度、总咳嗽周期时间以及膈肌和腹肌最大活动之间的时间。高呼气阻力和闭气会导致咳嗽呼气食管压力振幅增大、咳嗽呼气的活动时间延长以及咳嗽腹部活动增加。呼气闭塞也延长了咳嗽呼气期、所有咳嗽活动和整个咳嗽周期。气道阻力的显著增加和闭塞除了会引起咳嗽的机械性变化外,还会通过显著调节所产生的咳嗽运动模式而引起继发性变化。一定程度的阻力似乎可以成功得到补偿,从而使咳嗽特征(包括呼气气流和气流上升时间)发生最小的变化。来自呼吸道的传入反馈,尤其是音量反馈,是调节咳嗽的一个重要因素,主要是在呼吸系统的各种病理情况下。
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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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