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Doris-Eva Bamiou, MD, MSc, MPhil; Samantha L. Free, PhD; Sanjay M. Sisodiya, MRCP, PhD; Wui K. Chong, MD, FRCR; Frank Musiek, PhD; Kathleen A. Williamson, PhD; Veronica van Heyningen, DPhil, FRSE, FMedSci; Anthony T. Moore, FRCOphth; David Gadian, DPhil; Linda M. Luxon, BSc(Hons), MB, BS, FRCP

Arch Pediatr Adolesc Med. 2007;161(5):463-469.

Objective  To assess auditory processing, hearing difficulties, and brain magnetic resonance (MR) imaging abnormalities in children with panocular developmental aniridia due to PAX6 mutations.

Design  Case-control study.

Setting  Great Ormond Street Hospital and Institute of Child Health.

Participants  Eleven case subjects with PAX6 mutations and 11 age-matched and sex-matched healthy control subjects.

Interventions  All subjects completed a structured hearing questionnaire, baseline audiometry, and central auditory tests (dichotic speech tests, frequency and duration pattern tests, and gaps-in-noise test). Case subjects underwent brain MR imaging with volumetry, and the results were compared with those of age-matched and sex-matched healthy control subjects randomly selected from the Radiology and Physics Unit database.

Main Outcome Measures  Brain MR imaging, central auditory test results, and questionnaire scores.

Results  The corpus callosum area was significantly smaller on brain volumetry in the cases compared with the controls. The anterior commissure was small in 7 cases and was normal in 3 cases on visual inspection of brain MR images (conducted in 10 of 11 cases). Audiograms showed no abnormalities in any of the children. Central auditory test results were normal in all the controls and were abnormal in all the cases except for 1 case with a pattern of abnormalities consistent with reduced auditory interhemispheric transfer. The cases had greater difficulty localizing sound and understanding speech in noise than the controls.

Conclusions  Despite normal audiograms, children with PAX6 mutations may experience auditory interhemispheric transfer deficits and have difficulty localizing sound and understanding speech in noise. In view of their additional visual difficulties, thorough audiological evaluation of these children is indicated to initiate appropriate management.

Author Affiliations: Academic Unit of Audiological Medicine (Dr Bamiou and Ms Luxon) and Radiology and Physics Unit (Dr Gadian), Institute of Child Health, Department of Clinical and Experimental Epilepsy, Institute of Neurology (Drs Free and Sisodiya), and Division of Inherited Eye Disease, Institute of Ophthalmology, and Moorfields Eye Hospital (Mr Moore), University College London; Department of Radiology, Great Ormond Street Hospital (Dr Chong); and Department of Neuro-otology, National Hospital for Neurology and Neurosurgery (Ms Luxon); London, England; Department of Communication Sciences, University of Connecticut, Storrs (Dr Musiek); and Medical Research Council Human Genetics Unit, Edinburgh, Scotland (Dr Williamson and Ms van Heyningen).