Unrecognized visual field deficits in children with primary central nervous system brain tumors

Visual field deficits can be a consequence of brain tumor location or treatment. The prevalence of unrecognized visual field deficits in children diagnosed with brain tumors is not known. All children at a single tertiary care pediatric children’s hospital diagnosed with a primary brain tumor were t...

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Bibliographic Details
Published in:Journal of neuro-oncology 2012-05, Vol.107 (3), p.545-549
Main Authors: Harbert, M. J., Yeh-Nayre, L. A., O’Halloran, H. S., Levy, M. L., Crawford, J. R.
Format: Article
Language:English
Subjects:
Age
Brain Neoplasms - complications
Brain Neoplasms - pathology
Brain tumors
Central nervous system
Child
Child, Preschool
Children
Clinical Study - Patient Study
Edema
Female
Glioma
Hospitals
Humans
Hypothalamus
Infant
Infant, Newborn
Male
Medicine
Medicine & Public Health
Metastases
Neoplasia
Neurology
Oncology
Optics
Parietal lobe
Pediatrics
Pituitary
Post-radiation
Prevalence
Temporal lobe
Vision
Vision Disorders - epidemiology
Vision Disorders - etiology
visual field
Visual Fields
Young Adult
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Summary:Visual field deficits can be a consequence of brain tumor location or treatment. The prevalence of unrecognized visual field deficits in children diagnosed with brain tumors is not known. All children at a single tertiary care pediatric children’s hospital diagnosed with a primary brain tumor were tested for visual field deficits by a child neurologist and neuro-ophthalmologist over 16 months. Children with reproducible visual field deficits on two separate occasions were included in the analysis. Patients with optic glioma, craniopharyngioma, or previously known visual field deficits were excluded. Fourteen of 92 (15.2%) children (average 8.9 years, 8 girls) had undiagnosed visual field deficits. Average time between diagnosis of tumor and unrecognized visual field deficit was 3.7 years (range 0–13 years). Unrecognized visual field deficits were not associated with age ( P  = 0.27) or gender ( P  = 0.38). Visual field deficits were attributed to direct tumor infiltration ( n  = 8), postoperative complications ( n  = 5) and post-radiation edema ( n  = 1). Deficits included bitemporal hemianopsia ( n  = 2), homonymous hemianopsia ( n  = 9), quadrantanopsia ( n  = 2), and concentric visual field loss ( n  = 1.) Tumor location included temporal lobe ( n  = 9), parietal lobe ( n  = 2), posterior fossa ( n  = 2), hypothalamic-chiasmatic ( n  = 2) and multifocal areas ( n  = 4). Children with temporal lobe tumors were more likely to have unrecognized visual field deficits ( P  = 0.004). In all 14 patients, visual field deficits were determined by examination only and were not reported by either the patient or caregiver regardless of age. The prevalence of unrecognized visual field deficits in children with brain tumors can be surprisingly high. Serial neuro-ophthalmologic evaluation of children with brain tumors is often required to diagnose a visual field deficit since patient or caregiver reporting may be limited.
ISSN:0167-594X
1573-7373
DOI:10.1007/s11060-011-0774-3