In a previous study of preterm infants requiring mechanical ventilation for the respiratory distress syndrome, we demonstrated a striking association of fluctuating cerebral blood-flow velocity in the first day of life with the subsequent occurrence of intraventricular hemorrhage. Because this fluctuating pattern could be eliminated by muscle paralysis, we conducted a prospective study of preterm infants receiving mechanical ventilation for the respiratory distress syndrome in which we evaluated the effect of paralysis and this flow-velocity pattern on the incidence and severity of intraventricular hemorrhage. Twenty-four infants with the fluctuating pattern in the first hours of life were identified and randomly selected to serve as controls (10) or to be subjected to muscle paralysis (14). Intraventricular hemorrhage developed in all 10 control infants but in only 5 of the 14 infants subjected to muscle paralysis. Moreover, in 4 of the 5 paralyzed infants in whom hemorrhage developed, it did so after cessation of the paralysis. Seven of the 10 control infants had Grade III hemorrhage, the most severe variety of intraventricular hemorrhage, whereas none of the paralyzed infants had Grade III hemorrhage. We conclude that elimination of fluctuating cerebral blood-flow velocity in preterm infants with respiratory distress syndrome markedly reduces the incidence and severity of intraventricular hemorrhage.
Hypoxic-ischemic encephalopathy secondary to perinatal asphyxia in the term newborn is the most common recognized cause of the subsequent motor deficits often grouped under the rubric "cerebral palsy." In order to provide insight into the basic nature and pathogenesis of the brain injury in such infants, we studied regional cerebral blood flow (CBF) by positron emission tomography (PET) in 17 asphyxiated term infants during the acute period of illness. A consistent and apparently unifying abnormality was observed, namely, a relative decrease in CBF to parasagittal regions, generally symmetrical and more marked posteriorly than anteriorly. Thus, parasagittal values for CBF were generally 25 to 50% lower than those for the sylvian cortex; in the normal or near normal infant, parasagittal values are only approximately 10% lower than those for the sylvian cortex. (Additional normal findings for regional CBF were 50% higher flows to the cerebral cortex than to the cerebral white matter and flows to the basal ganglia and thalamus at least as high as those to the cerebral cortex). That the relative deficit in CBF to parasagittal regions reflects tissue injury was indicated by the close topographic correlation on technetium brain scans in 3 patients of increased tissue uptake of radionuclide and the CBF abnormality. Moreover, the single patient studied at postmortem examination exhibited parasagittal ischemic cerebral injury that correlated well with the PET abnormality of regional CBF. The topography of the PET abnormality, i.e., the cerebrovascular watershed regions, suggests that the brain injury is basically ischemic and that the pathogenesis relates to impaired cerebral perfusion, perhaps secondary to systemic hypotension occurring in association with the perinatal asphyxia. Experimental data support this formulation.
Regional cerebral blood flow (CBF) was measured by positron emission tomography (PET) with 15O-labeled water in an asphyxiated infant during a seizure. After intrauterine asphyxia, the infant had a syndrome characteristic of hypoxic-ischemic encephalopathy. During a PET scan on the second postnatal day, the infant had a focal seizure with deviation of eyes to the right and clonic jerking of the right arm. Regional blood flow was highest, about 80 ml/100 g/min, in the left temporal-parietal frontal region of the left hemisphere, the site of origin of the seizure; blood flow in the same region on the other side was about 57 ml/100 g/min. These observations extend to the newborn previous demonstrations in older patients of a focal increase of CBF at the cerebral site of origin of a focal seizure.
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