Purpose: To study the topography of photoreceptor loss early in the course of Leber congenital amaurosis (LCA) caused by RPE65 mutations.
Methods: Young patients with RPE65-LCA (n = 9; ages, 6-17 years) were studied with optical coherence tomography (OCT) in a wide region of central retina. Outer nuclear layer (ONL) thickness was mapped topographically and compared with that in normal subjects and in older patients with RPE65-LCA.
Results: Photoreceptor layer topography was abnormal in all young patients with RPE65-LCA. Foveal and extrafoveal ONL was reduced in most patients. There were interindividual differences, with ONL thicknesses at most retinal locations ranging from near the detectability limit to a significant fraction of normal. These differences were not clearly related to age. In most patients, there was a thinner ONL inferior to the fovea compared with that in the superior retina. Summary maps obtained by aligning and averaging photoreceptor topography across all young patients showed a relative preservation of ONL in the superior-temporal and temporal pericentral retina. These retinal regions also showed the greatest magnitude of interindividual variation.
Conclusions: Photoreceptor loss in the foveal and extrafoveal retina was prominent, even in the youngest patients studied. Differences in the topography of residual photoreceptors in children with RPE65-LCA suggest that it may be advisable to use individualized ONL mapping to guide the location of subretinal injections for gene therapy and thereby maximize the potential for efficacy.