1. Regulation of cerebral glucose metabolism in normal and polycythemic newborn lambs.
- Author
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Rosenkrantz TS, Philipps AF, Knox I, Zalneraitis EL, Porte PJ, Skrzypczak PE, and Raye JR
- Subjects
- 3-Hydroxybutyric Acid, Animals, Animals, Newborn physiology, Brain physiopathology, Cerebrovascular Circulation physiology, Electroencephalography, Hydroxybutyrates metabolism, Lactates metabolism, Lactic Acid, Oxygen metabolism, Polycythemia physiopathology, Sheep, Animals, Newborn metabolism, Brain metabolism, Glucose metabolism, Polycythemia metabolism
- Abstract
In contrast to previous investigations, a recent study of polycythemic lambs suggested that cerebral glucose delivery (concentration x blood flow), not arterial glucose concentration, determined cerebral glucose uptake. In the present study, the independent effects of arterial glucose concentration and delivery on cerebral glucose uptake were examined in two groups of chronically catheterized newborn lambs (control and polycythemic). Arterial glucose concentration was varied by an infusion of insulin. CBF was reduced in one group of lambs (polycythemic) by increasing the hematocrit. At all arterial glucose concentrations, the cerebral glucose delivery of the polycythemic group was 59.6% of the control group. At arterial glucose concentrations of greater than 1.6 mmol/L, cerebral glucose uptake was constant and similar in both groups. At arterial glucose concentrations of less than or equal to 1.6 mmol/L, cerebral glucose uptake was unchanged in the control group, but was significantly decreased in the polycythemic group. In contrast, the cerebral glucose uptake was similar in both groups over a broad range of cerebral glucose delivery values. At cerebral glucose delivery values less than or equal to 83 mumols/min/100 g, there was a significant decrease in cerebral glucose uptake in both groups. During periods of low cerebral glucose delivery and uptake, cerebral oxygen uptake fell in the control group but remained unchanged in the polycythemic group. Maintenance of cerebral oxygen uptake in the polycythemic group was associated with an increased extraction and uptake of lactate and beta-hydroxybutyrate. We conclude that cerebral glucose delivery, not arterial glucose concentration alone, determines cerebral glucose uptake.
- Published
- 1992
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