NON-INVASIVE INVESTIGATION OF CEREBRAL METABOLISM IN NEWBORN INFANTS BY PHOSPHORUS NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY

Intracellular metabolism in the brains of seven infants, born at 33-40 weeks' gestation and aged 44 h to 17 days, was studied on fourteen occasions by phosphorus nuclear magnetic resonance spectroscopy (31P NMRS). The characteristic spectral peaks of ATP, phosphocreatine (PCr), phosphodiesters, and inorganic orthophosphate (P;) were always detected, together with a large peak attributed mainly to ribose-5-phosphate. The ratio of PCr to P1 NMRS signals (which are related to concentration) in one infant thought to have a normal brain was 1·7. In three infants who had severe birth asphyxia the PCr/P1 ratio ranged from 0·2 to 1·0 but increased as their clinical condition improved: infusions of mannitol solution caused a rapid increase in the ratio on four occasions in two of these infants. The PCr/Pi ratio was 1·4 in an infant with congenital cerebral atrophy and 0·7 in an infant with meningitis. Grossly abnormal 31P spectra antedated the detection by ultrasound of large porencephalic cysts in two infants. No systematic changes in intracellular pH (calculated from the chemical shift of the P; resonance) were observed: the mean value for all observations was 7·2±SD 0 ·1 (n = 14).