Effects of S -Nitrosoglutathione on Acute Vasoconstriction and Glutamate Release After Subarachnoid Hemorrhage

Abstract

Background and Purpose —Subarachnoid hemorrhage (SAH) causes acute vasoconstriction that contributes to ischemic brain injury shortly after the initial bleed. It has been theorized that decreased availability of nitric oxide (NO) may contribute to acute vasoconstriction. Therefore we examined the effect of the NO donor N -nitroso glutathione (GSNO) on acute vasoconstriction and early ischemic glutamate release after experimental SAH. Methods —SAH was induced by the endovascular suture method in anesthetized rats. GSNO (1 μmol/L/kg, n=31) or saline (n=21) was injected 5 minutes after SAH. Sham-operated rats received GSNO (1 μmol/L/kg, n=5) 5 minutes after sham surgery. Arterial and intracranial pressures, cerebral blood flow (CBF), and extracellular glutamate release were measured serially for 60 minutes after SAH. SAH size was determined, and vascular measurements were made histologically. Results —GSNO had no effect on resting blood pressure, intracranial pressure, cerebral perfusion pressure, or CBF in sham-operated animals. However, administration of GSNO after SAH was associated with significantly increased CBF (161.6±26.6% versus saline 37.1±5.5%, 60 minutes after SAH, P <0.05), increased blood vessel diameter (internal carotid artery [ICA] 285.0±16.5 μm versus saline 149.2±14.1 μm, P <0.01), decreased vessel wall thickness (ICA12.9±0.7 μm versus saline 25.1±1.6 μm, P <0.01), and decreased extracellular glutamate levels (3315.6±1048.3% versus saline469.7±134.3%, P <0.05). Blood pressure decreased transiently, whereas intracranial pressure, cerebral perfusion pressure, and SAH size were not affected. Conclusions —These results suggest that GSNO can reverse acute vasoconstriction and prevent ischemic brain injury after SAH. This further implies that acute vasoconstriction contributes significantly to ischemic brain injury after SAH and is mediated in part by decreased availability of NO.