FZD4 mutations in either the N- or C-terminal region underlie adFEVR, which indicates that FZD4 plays an important role in retinal angiogenesis. Analysis of FZD4 mutations in families with adFEVR is useful for genetic counseling and for early diagnosis
ABSTRACT.Purpose: To describe the clinical features and genetic analysis of a 3-year-old boy diagnosed with familial fleck retina with night blindness. Methods: The proband and his parents and grandparents were included. History, visual acuity and fundus examinations were evaluated. Bright-flash (rod-plus-cone) electroretinograms (ERGs) were recorded after 30 mins and 180 mins of dark adaptation. Mutation screening of the RDH5 gene encoding 11-cis retinol dehydrogenase was performed. Results: The parents noticed the proband's night blindness when he was 2 years old. Best corrected visual acuity was 1.0 in both eyes. Fundus examinations revealed numerous yellow-white flecks of varying size and shape throughout the midperipheral to far peripheral retina in both eyes. The distribution, size and shape of the flecks were comparable to those seen in familial fleck retina with night blindness, rather than fundus albipunctatus. The ERGs showed extremely diminished responses after 30 mins of dark adaptation, but there were substantial increases in the amplitudes of both a-and b-waves when recorded after 180 mins of dark adaptation. Although a total of 19 RDH5 mutations have been found only in patients with fundus albipunctatus, compound heterozygous mutations, p.V177G and p.L310delinsEV, whose combination has not been previously reported, were found in the proband. The asymptomatic parents and one of the grandparents each carried one of the mutations, consistent with autosomal recessive transmission. Conclusion: Our study indicates that different mutations in the RDH5 gene can cause phenotypic variations of either fundus albipunctatus or familial fleck retina with night blindness.
Congenital achromatopsia is a stationary retinal disorder with autosomal recessive inheritance. It is characterized by significant attenuation of cone-photoreceptor function. Symptoms include photophobia, nystagmus, and poor visual acuity from birth. Unlike in cone or cone-rod dystrophies, the retinal fundus usually appears normal. Here we describe two siblings with congenital achromatopsia, who exhibit different ophthalmic phenotypes. History was taken, and ophthalmic examinations were performed in a 7-year-old girl and her 5-year-old brother, who were referred to our department because of poor visual acuity. Two of their grandparents were brother and sister, suggesting an autosomal recessive transmission in inheritance. They have been followed for more than 13 years since the initial evaluation. Symptoms, visual acuity, and kinetic visual field were very similar to each other, consistent with findings of typical congenital achromatopsia. However, color-vision tests suggested that the brother had residual color discrimination, but the sister did not. The siblings had different full-field electroretinographic and spectral-sensitivity findings: residual cone functions were detected in only the brother, in agreement with his residual color vision. They also had different findings of retinal fundi and ocular refractions: the sister had bilaterally atrophic-appearing macular lesions and myopic errors. In contrast, the brother remains hyperopia and has exhibited no specific retinal findings until age 18 years. The causes why both complete and incomplete achromats occur in the siblings are uncertain but might be caused by modifying effects of sex-related genes or by environmental factors influencing certain gene regulations in cone photoreceptors.
We report on a boy with the blepharophimosis sequence and de novo, apparently balanced reciprocal translocation between 3q23 and 4p15.2 [46,XY,t(3;4)(q23;p15.2)de novo]. Possible assignment of this autosomal dominant disorder is discussed. A 3q23 band is a more preferable gene locus of the belpharophimosis sequence, based on the comparison of clinical manifestations between 4p- and 3q-syndromes.
We report the first familial case of dominantly inherited aniridia with a cryptic inversion within band 11p13. High-resolution chromosome analysis gave a suspicion of a tiny constitutional aberration around band 11p13 and fluorescence in situ hybridization using 11p cosmids successfully confirmed that the aniridia patients of this family have an inversion within band 11p13. The distal breakpoint of the inversion is telomeric to a candidate aniridia gene (AN2) and suggests that more genes might be involved in the etiology of aniridia. In situ hybridization is a powerful tool to detect cryptic rearrangements in sporadic or familial patients with aniridia. This family indicated the importance of careful observation of the 11p13 region of aniridia patients, even if the aniridia was autosomal dominantly inherited.
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