We have previously demonstrated that the shortening of the canine parasternal intercostals during inspiration results primarily from the muscles' own activation (J. Appl. Physiol. 64: 1546-1553, 1988). In the present studies, we have tested the hypothesis that other inspiratory rib cage muscles may contribute to the parasternal inspiratory shortening. Eight supine, spontaneously breathing dogs were studied. Changes in length of the third or fourth right parasternal intercostal were measured during quiet breathing and during single-breath airway occlusion first with the animal intact, then after selective denervation of the muscle, and finally after bilateral phrenicotomy. Denervating the parasternal virtually eliminated the muscle shortenin...
Unilateral bronchial occlusion, a complication of many lung diseases, causes dyspnea but the mechani...
Key points: Subjects with chronic obstructive pulmonary disease and hyperinflation commonly have an ...
To determine the relative contribution of rib cage and abdominal muscles to expiratory muscle activi...
When the parasternal intercostal in a single interspace is selectively denervated in dogs with diaph...
The relationship between parasternal intercostal length and rib cage cross-sectional area was examin...
To investigate the action of the inspiratory intercostals, we studied the patterns of rib cage and a...
In an attempt to assess the physiological function(s) of the external (E) and internal interosseous ...
Previous studies have shown in awake dogs that activity in the crural diaphragm, but not in the cost...
The inspiratory intercostal muscles enhance the force generated by the diaphragm during lung expansi...
In a previous paper (J. Appl. Physiol. 73: 2283-2288, 1992), respiratory effect was defined as the c...
To assess the respiratory function of the scalene and sternomastoid muscles in the dog, we studied t...
Conventional wisdom maintains that the diaphragm lifts the lower ribs during isolated contraction. R...
The diaphragm acting alone causes a cranial displacement of the lower ribs and a caudal displacement...
To investigate the action of the neck accessory muscles on the rib cage, we stimulated the sternocle...
High-frequency mechanical vibration of the ribcage increases afferent activity from external interco...
Unilateral bronchial occlusion, a complication of many lung diseases, causes dyspnea but the mechani...
Key points: Subjects with chronic obstructive pulmonary disease and hyperinflation commonly have an ...
To determine the relative contribution of rib cage and abdominal muscles to expiratory muscle activi...
When the parasternal intercostal in a single interspace is selectively denervated in dogs with diaph...
The relationship between parasternal intercostal length and rib cage cross-sectional area was examin...
To investigate the action of the inspiratory intercostals, we studied the patterns of rib cage and a...
In an attempt to assess the physiological function(s) of the external (E) and internal interosseous ...
Previous studies have shown in awake dogs that activity in the crural diaphragm, but not in the cost...
The inspiratory intercostal muscles enhance the force generated by the diaphragm during lung expansi...
In a previous paper (J. Appl. Physiol. 73: 2283-2288, 1992), respiratory effect was defined as the c...
To assess the respiratory function of the scalene and sternomastoid muscles in the dog, we studied t...
Conventional wisdom maintains that the diaphragm lifts the lower ribs during isolated contraction. R...
The diaphragm acting alone causes a cranial displacement of the lower ribs and a caudal displacement...
To investigate the action of the neck accessory muscles on the rib cage, we stimulated the sternocle...
High-frequency mechanical vibration of the ribcage increases afferent activity from external interco...
Unilateral bronchial occlusion, a complication of many lung diseases, causes dyspnea but the mechani...
Key points: Subjects with chronic obstructive pulmonary disease and hyperinflation commonly have an ...
To determine the relative contribution of rib cage and abdominal muscles to expiratory muscle activi...