Abstract
Objective To compare the extent of intraocular straylight in carriers of choroideremia (CHM) and X-linked recessive retinitis pigmentosa (XLRP) to clarify further the relationship between photoreceptor cell degeneration and intraocular light scatter in retinal diseases. Design Prospective case-control study. Participants Six obligate carriers of CHM, 12 obligate carriers of XLRP, and 30 age-similar control subjects with normal vision. The controls had no posterior subcapsular (PSC) lens opacities, and the carriers had minimal or no PSC lens opacities, as assessed by slit-lamp biomicroscopy. Main outcome measures Straylight levels were measured using a van den Berg Straylightmeter. Visual acuity and Goldmann visual field area using a II/4e target were assessed for both eyes of each carrier. Electroretinogram (ERG) data were available on four of six carriers of CHM and all carriers of XLRP. The extent of retinal pigment epithelial degenerative changes was evaluated by fundus examination. Results All six carriers of CHM had typical fundus abnormalities with normal visual fields. Five of the six carriers of CHM had age-normal levels of intraocular light scatter, and one showed minimally elevated intraocular light scatter. The 12 carriers of XLRP had a spectrum of fundus abnormalities and varying severity of functional impairment as derived from visual field areas and ERG amplitudes. Seven of the 12 carriers of XLRP showed an elevated level of intraocular light scatter in at least one eye. The degree of straylight elevation above the normal mean age value was correlated significantly with both visual field area and amplitude of the maximal-intensity, dark-adapted ERG b-wave. Conclusions The carriers of XLRP who had evidence of photoreceptor cell dysfunction (as determined by visual field loss and reduced ERG amplitudes) had increased levels of intraocular straylight, whereas the carriers of CHM, who showed fundus abnormalities alone, in the absence of demonstrable photoreceptor cell dysfunction, had normal or minimally elevated levels. This finding supports the hypothesis that the increased levels of intraocular light scatter observed in some patients with hereditary retinal degenerations result from subclinical changes in the PSC region of the lens as a consequence of photoreceptor cell degeneration.
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