Monica F Chen1, Elana Meer1, Federico G Velez1,2, Monika Jones3, Gary W Mathern4, Stacy L Pineles1. 1. 1 Stein Eye Institute, Department of Ophthalmology, University of California, Los Angeles, CA, USA. 2. 3 Olive View UCLA Medical Center, Sylmar, CA, USA. 3. 4 The Brain Recovery Project: Childhood Epilepsy Surgery Foundation, Pasadena, CA, USA. 4. 5 Departments of Neurosurgery and Psychiatry & Biobehavioral Medicine David Geffen School of Medicine at UCLA, University of California, Los Angeles, CA, USA.
Abstract
BACKGROUND: Cerebral hemispherectomy is typically used to treat patients with pharmacoresistant epilepsy. Visual-related outcomes are relatively unstudied in this population, aside from the knowledge that patients develop a complete homonymous hemianopia contralateral to the side of the hemispherectomy. The purpose of this study was to determine and characterize parent-reported functional visual, oculomotor, and postural changes in a large population of patients following cerebral hemispherectomy. METHODS: An online survey was sent to parents of children who had undergone hemispherectomy for seizure control. Families were recruited by the Brain Recovery Project: Childhood Epilepsy Surgery Foundation. Parent-reported subjective visual function was assessed by the presence of peripheral field defects, ocular misalignment and anomalous head posture. RESULTS: A total of 196 (12.5%) participants responded. Postoperative follow-up was 92±78 months (range: 1-382). Ninety-three percent of parents reported the child had difficulties with peripheral vision. Torticollis was present postoperatively in 122 (62%) patients. Strabismus was noted in 93 (49%). Fifty-five (59%) of the strabismus patients demonstrated exotropia with the majority of exotropia patients demonstrating the exo-deviated eye in the direction contralateral to the hemispherectomy (74.5%). Both torticollis and strabismus were most frequently seen immediately after surgery. Sixty-six patients (34%) underwent strabismus treatment. Patients with younger age of seizure onset, younger age of surgery, and certain epilepsy etiologies (hemimegencephaly, Sturge-Weber syndrome) were more likely to develop strabismus and torticollis. CONCLUSIONS: Torticollis and strabismus are common after hemispherectomy and appear to be influenced by etiology and age at surgery. Preoperative discussion with parents and patients regarding those compensatory mechanisms is recommended, and postoperative ophthalmologic assessments are also encouraged.
BACKGROUND: Cerebral hemispherectomy is typically used to treat patients with pharmacoresistant epilepsy. Visual-related outcomes are relatively unstudied in this population, aside from the knowledge that patients develop a complete homonymous hemianopia contralateral to the side of the hemispherectomy. The purpose of this study was to determine and characterize parent-reported functional visual, oculomotor, and postural changes in a large population of patients following cerebral hemispherectomy. METHODS: An online survey was sent to parents of children who had undergone hemispherectomy for seizure control. Families were recruited by the Brain Recovery Project: Childhood Epilepsy Surgery Foundation. Parent-reported subjective visual function was assessed by the presence of peripheral field defects, ocular misalignment and anomalous head posture. RESULTS: A total of 196 (12.5%) participants responded. Postoperative follow-up was 92±78 months (range: 1-382). Ninety-three percent of parents reported the child had difficulties with peripheral vision. Torticollis was present postoperatively in 122 (62%) patients. Strabismus was noted in 93 (49%). Fifty-five (59%) of the strabismus patients demonstrated exotropia with the majority of exotropiapatients demonstrating the exo-deviated eye in the direction contralateral to the hemispherectomy (74.5%). Both torticollis and strabismus were most frequently seen immediately after surgery. Sixty-six patients (34%) underwent strabismus treatment. Patients with younger age of seizure onset, younger age of surgery, and certain epilepsy etiologies (hemimegencephaly, Sturge-Weber syndrome) were more likely to develop strabismus and torticollis. CONCLUSIONS: Torticollis and strabismus are common after hemispherectomy and appear to be influenced by etiology and age at surgery. Preoperative discussion with parents and patients regarding those compensatory mechanisms is recommended, and postoperative ophthalmologic assessments are also encouraged.
Entities:
Keywords:
epilepsy; neuroophthalmology; neurosurgery; ophthalmology; seizures; surgery