The influence of CSF calcium and magnesium on the ventilatory response to carbon dioxide during hyperoxia.

Respiratory responses to inhaled carbon dioxide were measured in anaesthetized cats during perfusion of the ventriculocisternal system with artificial cerebrospinal fluid. A study was performed to evaluate the effect of changes in the magnesium and/or calcium concentration of the CSF on the CO2 response curve which was described as VE = S (PCSF, CO2 -- B). A decrease of S was observed when the magnesium concentration of the perfusion fluid was increased; the B-value remaining the same. The reverse was true down to magnesium concentrations of 0.6 mmol-1-1. Below this concentration S remained the same or decreased; the B-value was lowered. When both the calcium and magnesium concentrations of the CSF were changed, the relation between S and these concentrations could be described as to be proportional to CCAa-CMgb. The effect of changes in the calcium concentration was much more pronounced than comparable changes of the magnesium concentration as reflected by the magnitude of the exponents a and b which were found to be -2.80 (S.D. 0.11) and -0.60 (S.D. 0.03) respectively.