The effects of systemic glucose concentration on brain metabolism following repeated brain ischemia

Abstract

Since systemic glucose concentration is an important determinant of ischemic brain metabolism in neonates, we sought to determine if the systemic glucose concentration influences brain metabolic alterations following repeated partial ischemia. A group of hyperglycemic pigles ( n = 12) were compared to a group of modestly hypoglycemic piglets ( n = 12) using in vivo 2H and 31P magnetic resonance spectroscopy to simultaneously measure cerebral blood flow and phosphorylated metabolites before, during and 30 min after two 10-min episodes of ischemia (i.e. Recovery 1 and 2). For both groups, β-ATP levels at Recovery 1 and 2 were lower than Control (91 ± 11and83 ± 15% of Control, respectively for both groups combined, P = 0.002 vs Control). Inorganic phosphorus was elevated in hyperglycemic piglets at Recovery 1 and 2 (117 ± 15and118 ± 10% of Control). In contrast, in modestly hypoglycemic piglets inorganic phosphorus progressively rose from Recovery 1 (131 ± 24% of Control) to Recovery 2 (149 ± 37% of Control), and differed from the hyperglycemic group ( P = 0.02). These changes did not correlate with post-ischemic cerebral blood flow, cerebral O 2 delivery or cerebral glucose delivery. In both groups phosphocreatine and intracellular pH returned to Control values during Recovery 1 and 2. The progressive increase in inorganic phosphorus post-ischemia in hypoglycemic piglets suggests that modest hypoglycemia during and following repeated partial ischemia adversely affects immediate brain metabolic recovery.