Elizabeth E Gilles1, Mary Lou McGregor, Grace Levy-Clarke. 1. Departments of Pediatrics and Neurology, Division of Pediatric Neurology, MMC 486, 420 Delaware Street SE, University of Minnesota, MN 55455, USA. gille037@tc.umn.edu
Abstract
OBJECTIVE: To determine whether regional cerebral parenchymal injury patterns correlate with the distribution of retinal hemorrhages after inflicted head injury. STUDY DESIGN: Retrospective case series of funduscopic photographs and serial computerized tomographic imaging of 14 children with confirmed inflicted head injury. MAIN OUTCOME MEASURES: Retinal Hemorrhage Score per eye and per subject, visual field examination, regional patterns of parenchymal injury on computerized tomographic scans and necropsy, and retinal/optic nerve sheath hemorrhage distribution at necropsy. RESULTS: Ten of 14 children had retinal hemorrhages (71%); 90% were asymmetric (mean retinal score, 4.89 vs 2.56; P=.006). Retinal hemorrhages were maximal on the side of greatest cerebral injury in seven of 10 children initially. Subsequent imaging asymmetry predicted retinal hemorrhage distribution in all eight survivors. Children's Coma Scores, apnea or cardiorespiratory arrest, initial hemoglobin, and plasma glucose concentration did not predict laterality. Asymmetry was greatest if dilated ophthalmoscopy was performed during the first 24 hours (P=.03). Visual outcome was poor; three had homonymous hemianopia and four had cortical visual loss, all correlating with parenchymal atrophy patterns. CONCLUSION: The distribution of retinal hemorrhages after inflicted head injury correlates with acute and evolving regional cerebral parenchymal injury patterns.
OBJECTIVE: To determine whether regional cerebral parenchymal injury patterns correlate with the distribution of retinal hemorrhages after inflicted head injury. STUDY DESIGN: Retrospective case series of funduscopic photographs and serial computerized tomographic imaging of 14 children with confirmed inflicted head injury. MAIN OUTCOME MEASURES: Retinal Hemorrhage Score per eye and per subject, visual field examination, regional patterns of parenchymal injury on computerized tomographic scans and necropsy, and retinal/optic nerve sheath hemorrhage distribution at necropsy. RESULTS: Ten of 14 children had retinal hemorrhages (71%); 90% were asymmetric (mean retinal score, 4.89 vs 2.56; P=.006). Retinal hemorrhages were maximal on the side of greatest cerebral injury in seven of 10 children initially. Subsequent imaging asymmetry predicted retinal hemorrhage distribution in all eight survivors. Children's Coma Scores, apnea or cardiorespiratory arrest, initial hemoglobin, and plasma glucose concentration did not predict laterality. Asymmetry was greatest if dilated ophthalmoscopy was performed during the first 24 hours (P=.03). Visual outcome was poor; three had homonymous hemianopia and four had cortical visual loss, all correlating with parenchymal atrophy patterns. CONCLUSION: The distribution of retinal hemorrhages after inflicted head injury correlates with acute and evolving regional cerebral parenchymal injury patterns.
Authors: Alain Goriely; Marc G D Geers; Gerhard A Holzapfel; Jayaratnam Jayamohan; Antoine Jérusalem; Sivabal Sivaloganathan; Waney Squier; Johannes A W van Dommelen; Sarah Waters; Ellen Kuhl Journal: Biomech Model Mechanobiol Date: 2015-02-26
Authors: Giulio Zuccoli; Ashok Panigrahy; Anshul Haldipur; Dennis Willaman; Janet Squires; Jennifer Wolford; Christin Sylvester; Ellen Mitchell; Lee Ann Lope; Ken K Nischal; Rachel P Berger Journal: Neuroradiology Date: 2013-04-09 Impact factor: 2.804