TY - JOUR
T1 - Inspiratory muscle activity during induced hyperinflation
AU - Martin, J. G.
AU - Habib, M.
AU - Engel, L. A.
N1 - Funding Information:
* Supported by the Medical Research Council of Canada. i Dr. L.A. Engel is a Scholar of the Medical Research Council of Canada. 303
PY - 1980/3
Y1 - 1980/3
N2 - We studied the relationship between inspiratory muscle activity and lung volume in 5 normal subjects in whom hyperinflation to 78-83% VC was induced with external experitory resistances. While breathing at this high lung volume the most negative pleural pressure (Ppl) during inspiration was -23.4±2.3 cm H2O (mean ± 1 SE, whereas the maximum expiratory Ppl was t-4.2±1.6 in four and +31 cm H2O in one subject. Using relaxation pressure-volume curves of the chest wall, we reasoned that in the 4 subjects inspiratory muscles showed a substantial persistence of activity throughout expiration. The minimum inspiratory muscle force (Pmus) during expiration was 35.9±8.4% of the peak inspiratory Pmus. Similarly, the work of the inspiratory muscles in expiration was 57.8±9.5% of the work during inspiration. In all 5 subjects the diaphragm relaxed almost completely in expiration, as evidence by the transdiaphragmatic pressure (Pdi), which fell during expiration to 10.0±4.1% of the peak inspiratory Pdi. Inspiratory intercostal and scalene electromyographic recordings, obtained in 3 subjects, demonstrated substantial activity in expiration. We conclude that during external, resistive, expiratory loading the volume of hyperinflation is influenced by persistent activity of inspiratory muscles in expiration, and that this is due largely to the inspiratory and accessory muscles rather than the diaphragm.
AB - We studied the relationship between inspiratory muscle activity and lung volume in 5 normal subjects in whom hyperinflation to 78-83% VC was induced with external experitory resistances. While breathing at this high lung volume the most negative pleural pressure (Ppl) during inspiration was -23.4±2.3 cm H2O (mean ± 1 SE, whereas the maximum expiratory Ppl was t-4.2±1.6 in four and +31 cm H2O in one subject. Using relaxation pressure-volume curves of the chest wall, we reasoned that in the 4 subjects inspiratory muscles showed a substantial persistence of activity throughout expiration. The minimum inspiratory muscle force (Pmus) during expiration was 35.9±8.4% of the peak inspiratory Pmus. Similarly, the work of the inspiratory muscles in expiration was 57.8±9.5% of the work during inspiration. In all 5 subjects the diaphragm relaxed almost completely in expiration, as evidence by the transdiaphragmatic pressure (Pdi), which fell during expiration to 10.0±4.1% of the peak inspiratory Pdi. Inspiratory intercostal and scalene electromyographic recordings, obtained in 3 subjects, demonstrated substantial activity in expiration. We conclude that during external, resistive, expiratory loading the volume of hyperinflation is influenced by persistent activity of inspiratory muscles in expiration, and that this is due largely to the inspiratory and accessory muscles rather than the diaphragm.
KW - Diaphragm
KW - Inspiratory muscles
KW - Intercostal muscles
KW - Mechanics of breathing
KW - Pleural pressure
KW - Work of breathing
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U2 - 10.1016/0034-5687(80)90062-6
DO - 10.1016/0034-5687(80)90062-6
M3 - Article
C2 - 6992247
AN - SCOPUS:0018837122
SN - 0034-5687
VL - 39
SP - 303
EP - 313
JO - Respiration Physiology
JF - Respiration Physiology
IS - 3
ER -