Abstract
The modulation of mechanically induced tracheobronchial cough was tested by applying various stimuli and the elicitation of other airway protective behaviors in pentobarbital anesthetized cats. Capsaicin and histamine were injected in the nose, and mechanical nylon fiber and / or air puff stimulation was applied to the nose and nasopharynx. Reflex responses of cough, sneeze, aspiration reflex and expiration reflex were induced mechanically. Swallow was initiated by the injection of water into oropharynx. Subthreshold mechanical stimulation of nasopharyngeal and nasal mucosa, as well as water stimulation in the oropharynx and larynx, with no motor response, had no effect on rhythmic coughing. Cough responsiveness and excitability increased with capsaicin and air puff stimuli delivered to the nose. Vice versa, the number of cough responses was reduced and cough latency increased when aspiration reflexes (>1) occurred before the cough stimulus or within inter-cough intervals (passive E2 cough phase). The occurrence of swallows increased the cough latency as well. Cough inspiratory and / or expiratory motor drive was enhanced by the occurrence of expiration reflexes, swallows, and sneezes and also by aspiration reflex within the inspiratory phase of cough and by nasal air puff stimuli. Complex central interactions, ordering and sequencing of motor acts from the airways may result in the disruption of cough rhythmic sequence but also in the enhancement of cough. Our data confirm that number of peripheral stimuli and respiratory motor responses significantly alters cough performance. We propose developing and testing stimulation paradigms that modify coughing and could be employed in correcting of inappropriate or excessive coughing.
Highlights
Airway protection and defense comprises the execution and coordination of several behaviors such as cough, apnea, sneeze, swallow, expiration and aspiration reflexes
With the addition of mechanical stimulation, which resulted in a behavioral response and/or irritant stimulation to the nose, cough was significantly modulated [7]-[11]
Cough responsiveness representing cough excitability was increased with the addition of capsaicin [11] or air puff stimulation to the nose (Table 1)
Summary
Airway protection and defense comprises the execution and coordination of several behaviors such as cough, apnea, sneeze, swallow, expiration and aspiration reflexes. Cough employs air compression and fast expiratory airflows to clean the airways. The effectiveness of cough is based on sufficient amount of air in lungs at the peak of coughing inspiration (I) and on forceful ballistic like activity of expiratory (E) pump muscles to execute the compression and expulsion [1] [2]. During the compression phase the expiratory muscles generate a force against the closed glottis, producing increased intraairway pressure. The accumulation of energy, in the compressive phase of cough, enhances the expulsive expiration and increases cleaning efficacy of the airways [1]
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