The contribution of central mechanisms rostral to the pons in high altitude ventilatory acclimatization.

In order to explore the role of suprapontine mechanisms in the ventilatory features of acclimatization to high altitude (HAVA) a study was made of: (a) normal cats after 48 h of exposure to a simulated altitude of 5500 m; (b) those same acclimatized cats 6 h following mid-collicular decerebration; (c) decerebrate cats after 48 h of exposure to a simulated altitude of 5500 m; (d) decerebrate cats after 48 h of exposure to room air at sea level. In a pilot study in which high altitude exposure was maintained for 30 days it was determined that normal cats show all of the manifestations of HAVA after 48 h. These were: increase of VI over acute hypoxic value and a maintained hyperventilation with normoxic inhaled gas; increase of both VT and f, the latter predominantly due to shortened TE; increase of VT/TI. Following decerebration the ventilatory pattern of these cats reverted to the preoperative, acute hypoxic exposure characteristics. Decerebrate cats maintained under normoxic conditions for 48 h showed no changes that were statistically significant, but brief (20 min) hypoxic tests indicated an increase of ventilatory response at the end of the second day. Decerebrate cats maintained for 48 h in the hypoxic environment showed all of the main features of HAVA. We conclude that suprapontine mechanisms in the intact cat exert a facilitatory influence which supports the development of HAVA, but if the structures in which those mechanisms normally reside are chronically removed, a comparable mechanism in the ponto-medullary region is capable of assuming the same function.