Abstract
The purpose of this study was to identify the spatiotemporal determinants of the cough motor pattern. We speculated that the spatial and temporal characteristics of the cough motor pattern would be regulated separately. Electromyograms (EMG) of abdominal muscles (ABD, rectus abdominis or transversus abdominis), and parasternal muscles (PS) were recorded in anesthetized cats. Repetitive coughing was produced by mechanical stimulation of the lumen of the intrathoracic trachea. Cough inspiratory (CTI) and expiratory (CTE) durations were obtained from the PS EMG. The ABD EMG burst was confined to the early part of CTE and was followed by a quiescent period of varying duration. As such, CTE was divided into two segments with CTE1 defined as the duration of the ABD EMG burst and CTE2 defined as the period of little or no EMG activity in the ABD EMG. Total cough cycle duration (CTTOT) was strongly correlated with CTE2 (r2>0.8), weakly correlated with CTI (r2<0.3), and not correlated with CTE1 (r2<0.2). There was no significant relationship between CTI and CTE1 or CTE2. The magnitudes of inspiratory and expiratory motor drive during cough were only weakly correlated with each other (r2<0.36) and were not correlated with the duration of any phase of cough. The results support: a) separate regulation of CTI and CTE, b) two distinct subphases of CTE (CTE1 and CTE2), c) the duration of CTE2 is a primary determinant of CTTOT, and d) separate regulation of the magnitude and temporal features of the cough motor pattern.
Highlights
Cough is an important airway defensive behavior
cough expiratory phase 1 (CTE1) is the period of ballistic-like expiratory motor discharge (Fig. 1) and cough expiratory phase 2 (CTE2) is the period of relative motor quiescence between the end of CTE1 and the onset of the cough inspiratory time (CTI) (Fig. 1)
Tonic activity in ABD EMGs could be observed during CTE2, but it was clearly distinguished from the ballistic-like expiratory motor bursting during CTE1
Summary
Cough is an important airway defensive behavior. Smaller VI or VE are associated with longer TI or TE durations during breathing [3] This volume timing behavior is mediated by slowly adapting pulmonary stretch receptors (PSR) Romaniuk et al [4] suggested that phasic PSR afferent feedback does not play an important role in the development of cough. This suggestion was supported by our previous study in which we found that there was no relationship between volume and phase durations during repetitive tracheobronchial (page number not for citation purposes)
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