Experiments were conducted to study the effect of the opioid, codeine, on different components of the cough motor pattern. Midcollicular decerebrate cats were paralyzed and artificially ventilated by a pump triggered by the phrenic neurogram. Inspiratory (phrenic) and expiratory (cranial iliohypogastric) neurograms were recorded. Fictive cough was produced by mechanical stimuli applied to the intrathoracic trachea. Codeine (0.03-1.0 mg . kg(-1), i.v.) decreased cough frequency (average number of coughs per stimulus trial), expiratory burst amplitude, and inspiratory burst amplitude in a dose-dependent manner. The maximum reduction in cough frequency and expiratory amplitude produced by codeine was 80-90% for both parameters. However, codeine was more potent in reducing cough frequency (ED(50) = 0.1 mg . kg(-1)) than expiratory burst amplitude (ED(50) = 0.35 mg . kg(-1)). The maximum observed reduction of inspiratory burst amplitude elicited by codeine was approximately 40%. There was a positive linear relationship between phrenic and cranial iliohypogastric burst amplitudes during fictive cough (r = 0.82, P < 0.001). Codeine destabilized the motor pattern during fictive cough by disrupting this relationship between inspiratory and expiratory burst amplitudes. We conclude: (a) the central pattern generator for cough is functionally organized into a cough frequency generator, an expiratory burst amplitude generator and an inspiratory burst amplitude generator, each of which have different sensitivities to codeine (b) there exists a specific codeine-sensitive neural mechanism matching the relative magnitude of central drive to inspiratory and expiratory motoneurons during cough.
