Abstract
Background and PurposeAlthough the spectrum of perinatal white matter injury (WMI) in preterm infants is shifting from cystic encephalomalacia to milder forms of WMI, the factors that contribute to this changing spectrum are unclear. We hypothesized that the variability in WMI quantified by immunohistochemical markers of inflammation could be correlated with the severity of impaired blood oxygen, glucose and lactate.MethodsWe employed a preterm fetal sheep model of in utero moderate hypoxemia and global severe but not complete cerebral ischemia that reproduces the spectrum of human WMI. Since there is small but measurable residual brain blood flow during occlusion, we sought to determine if the metabolic state of the residual arterial blood was associated with severity of WMI. Near the conclusion of hypoxia-ischemia, we recorded cephalic arterial blood pressure, blood oxygen, glucose and lactate levels. To define the spectrum of WMI, an ordinal WMI rating scale was compared against an unbiased quantitative image analysis protocol that provided continuous histo-pathological outcome measures for astrogliosis and microgliosis derived from the entire white matter. ResultsA spectrum of WMI was observed that ranged from diffuse non-necrotic lesions to more severe injury that comprised discrete foci of microscopic or macroscopic necrosis. Residual arterial pressure, oxygen content and blood glucose displayed a significant inverse association with WMI and lactate concentrations were directly related. Elevated glucose levels were the most significantly associated with less severe WMI.ConclusionsOur results suggest that under conditions of hypoxemia and severe cephalic hypotension, WMI severity measured using unbiased immunohistochemical measurements correlated with several physiologic parameters, including glucose, which may be a useful marker of fetal response to hypoxia or provide protection against energy failure and more severe WMI.
Highlights
Hypoxia-ischemia (H-I) is a major cause of perinatal cerebral white matter injury (WMI) [1], the most common lesion in children with cerebral palsy (CP) [2]
The following studies tested for an association across the entire study group using a linear mixed effects model (LME) [14]: Iba1 area fraction vs. glial fibrillary acidic protein (GFAP) area fraction; measures of Iba1 area fraction or GFAP area fraction relative to cephalic pressure, CaO2, blood glucose and blood lactate levels adjusted for the effect of survival time on the sample population
We employed a model in which low residual cerebral blood flow (CBF) occurs during a fixed duration of brachiocephalic artery (BCA) occlusion, and the levels of oxygen and glucose in the blood were analyzed for their relative contributions to the severity of WMI as measured by an unbiased index of WMI and an ordinal pathological rating scale
Summary
Hypoxia-ischemia (H-I) is a major cause of perinatal cerebral white matter injury (WMI) [1], the most common lesion in children with cerebral palsy (CP) [2]. Advances in neuro-imaging have identified a shift from previously common large necrotic lesions (periventricular leukomalacia; PVL) to less severe focal or diffuse non-necrotic WMI [6]. The latter forms of WMI occur in association with discrete foci of microscopic necrosis [7], which continue to have a high incidence, but comprise a minor component of the total burden of human WMI [5]. Results: A spectrum of WMI was observed that ranged from diffuse non-necrotic lesions to more severe injury that comprised discrete foci of microscopic or macroscopic necrosis. Conclusions: Our results suggest that under conditions of hypoxemia and severe cephalic hypotension, WMI severity measured using unbiased immunohistochemical measurements correlated with several physiologic parameters, including glucose, which may be a useful marker of fetal response to hypoxia or provide protection against energy failure and more severe WMI
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