Phrenic motoneuron discharge during sustained inspiratory resistive loading

Iscoe, Steve. Phrenic motoneuron discharge duringsustained inspiratory resistive loading. J. Appl.Physiol. 81(5): 2260-2266, 1996.I determinedwhether prolonged inspiratory resistive loading (IRL) affects phrenicmotoneuron discharge, independent of changes in chemical drive. Inseven decerebrate spontaneously breathing cats, the discharge patternsof eight phrenic motoneurons from filaments of one phrenic nerve weremonitored, along with the global activity of the contralateral phrenicnerve, transdiaphragmatic pressure, and fractional end-tidalCO₂ levels. Discharge patterns during hyperoxic CO₂ rebreathingand breathing against an IRL (2,500-4,000cmH₂O ^· l^{1 ·} s)were compared. During IRL, transdiaphragmatic pressure increased andthen either plateaued or decreased. At the highest fractional end-tidalCO₂ common to both runs,instantaneous discharge frequencies in six motoneurons were greaterduring sustained IRL than during rebreathing, when compared at the sametime after the onset of inspiration. These increased dischargefrequencies suggest the presence of a load-induced nonchemical drive tophrenic motoneurons from unidentified source(s).