Phosphorus-31 magnetic resonance spectra reveal prolonged intracellular acidosis in the brain following subarachnoid hemorrhage.

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Subarachnoid hemorrhage may be complicated by cerebral ischemia which, though reversible initially, can progress to an irreversible neurological deficit. 31P magnetic resonance spectroscopy, which can determine intracellular pH and thus detect areas of ischemia noninvasively, was applied to 10 patients on 30 occasions, at various times after subarachnoid hemorrhage. In 5 of them, there were focal areas of the brain in which the intracellular pH was reduced to < 6.8 compared with the normal range of 7.05 +/- 0.05. Consciousness was impaired in 4 of these patients. Repeat studies in these 4 patients showed that intracellular pH remained abnormally low for several days but eventually returned toward normal. The return of intracellular pH to normal paralleled an improvement in clinical condition in each case. In the fifth patient with lowered regions of intracellular pH, there had been an impaired level of consciousness and a transient focal deficit prior to the single study. In the other 5 patients there were no areas of reduced pHi even though in 3 of them there was intraventricular or cisternal blood shown on brain computerized tomography. In 2 of these 3 patients there were no abnormal neurological signs at the time of the magnetic resonance study. The third patient had a dense and persistent hemiparesis. The remaining two patients had no abnormal neurological signs at any stage. We suggest that the areas of acidosis may reflect ischemia which is potentially reversible. Since the technique is noninvasive, sequential 31P magnetic resonance spectroscopy of the brain offers a method of detecting cerebral ischemia and, more importantly, of assessing methods of treatment.

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