Ventilatory CO2-induced optical activity changes of cat ventral medullary surface

Abstract

We examined neuronal activation of the ventral medullary surface (VMS) during hypercapnic challenges using optical recording procedures. With a coherent imaging probe, we assessed reflected 700-nm light from 18 VMS sites in 11 spontaneously breathing adult cats and from the suprasylvian cortex in two cats. Video frames were acquired during a baseline period, hypercapnic (3, 5, and 10% CO2 in O2) exposure, and recovery. Hypercapnic exposure elicited overall reflectance changes in all VMS sites, but no changes in the suprasylvian cortex. Light reflectance changes, suggesting altered neuronal activity, were reproducible, occurred as early as 30 s after CO2 exposure, and were dose dependent. The changes persisted approximately 20-25 min beyond the stimulus, but respiratory responses consistently recovered within 2-3 min. Although more rostral VMS sites tended to be associated with decreased activity and caudal regions with increased excitation, no uniform topographical organization was apparent across animals. The variability in VMS optical reflectance patterns across animals during CO2 stimulation may reflect the heterogeneous topographical distribution of responsive neurons in the structure.