Na concentration of CSF and cardiovascular adjustment in thermally dehydrated rats

To assess the effect of the Na concentration of cerebrospinal fluid (CSF) on arterial pressure regulation under dehydration, the Na concentration in CSF ([Na]csf) was measured continuously with an Na-sensitive electrode in the lateral ventricle (LV) together with mean arterial pressure (MAP), central venous pressure (CVP) and cardiac output (GO) during and after hypotonic infusion (INF, similar to 200 mOsm/kg H2O, 5 mu l/min for 10 min) into the LV of dehydrated and pentobarbital anesthetized rats. Total vascular conductance (TVC) was calculated from CO/(MAP-CVP). Sine-aortic denervation was performed to eliminate any influence of arterial baroreflexes on MAP changed by [Na]csf. After dehydration, MAP increased by 20 mmHg (p<0.001) despite a 9% decrease in blood volume (p<0.001) while [Na]csf increased by 13 mEq/kg H2O (p<0.001). This increase in MAP was attributed to the decrease in TVC. After hypotonic INF began, MAP and [Na]csf decreased and the maximal decreases of -13 mmHg (p<0.001) and -28 mEq/kg H2O (p<0.001) were found at the end of INF, respectively. The changes in MAP (r=0.97, p<0.001), CO (r=0.97, p<0.001), and TVC (r=-0.90, p<0.001) were highly correlated with the change in [Na]csf during INF and the following 10-min recovery. These results suggest that the increase in [Na]csf is involved in the maintenance of arterial pressure by decreasing TVC and by attenuating the decrease in CO caused by dehydration-induced hypovolemia.