Genetic heterogeneity in autosomal dominant optic atrophy

Purpose: Autosomal dominant optic atrophy is a hereditary optic neuropathy characterized by progressive visual loss in childhood, color vision anomalies, visual field defects and temporal pallor of the optic disc. This disease has been mapped to a 1.4 cM interval in chromosome 3q28-29 between markers D3S3669 and D3S3562. One family was mapped to chromosome 18q12.2-12.3. Linkage analysis in three families with autosomal dominant optic atrophy with polymorphic DNA markers for chromosome 3q28-29 and 18q12.2-12.3. Methods: 57 individuals from three families underwent ophthalmological examination. Genomic DNA was extracted from blood samples. Linkage analysis was performed between the disease and 11 polymorphic markers around 3q28-qter and 18q12.2-12.3. Polymerase chain reaction (PCR) fragments sizes were identified in a scanner gel using a 373 DNA sequencer. These numbers were used as alleles for pedigree analysis. The lod scores were calculated using the MLINK program. Results: All three families presented optic atrophy with autosomal dominant pattern of inheritance, variable expression and high penetrance. Two families were linked to 3q28-29 markers. A maximal lod score of 3.56, at a recombination fraction of zero, was obtained using the marker D3S3669 in one family. The linkage area was defined in a 2 cM interval by haplotype analysis between markers D3S2418 and D3S1305, because patients III.4 and III.14 showed crossing-overs. The third family was not linked to 3q28-29 neither to 18q12.2-12.3. Conclusions: There is genetic heterogeneity in autosomal dominant optic atrophy, because the third family did not map to any known locus. And a third locus for this disease may exist.Objetivos: A atrofia óptica autossômica dominante, tipo Kjer ou juvenil, é neuropatia óptica hereditária que causa perda de acuidade visual, anormalidades da visão de cores e defeitos do campo visual, caracterizada por palidez do disco óptico. O gene desta doença foi mapeado por análise de ligação genética em um intervalo de 1,4 cM no cromossomo 3q28-29 entre os marcadores microssatélites D3S3669 e D3S3562. Embora a maioria das famílias estudadas tenha mostrado ligação para a região cromossômica 3q28-29, uma família foi mapeada no cromossomo 18q12.2-12.3. Este trabalho analisa a ligação da atrofia óptica em três famílias com marcadores polimórficos para os cromossomos 3q28-29 e 18q12.2-12.3. Métodos: Cinqüenta e sete indivíduos de três famílias foram submetidos a exame oftalmológico e coleta de sangue. O DNA foi extraído e amplificado em reações de polimerase em cadeia (PCR) com marcadores polimórficos para os cromossomos 3q28-29 e 18q12.2-12.3. Os fragmentos de PCR foram mensurados em seqüenciador automático (373 DNA sequencer). Estes números foram utilizados como alelos para análise de haplótipos. Os lod scores foram calculados pelo programa MLINK. Resultados: Na primeira família houve suspeita da atrofia óptica mapear para o cromossomo 3q28-29, mas sem significância estatística no valor do lod score. Na segunda família a atrofia óptica apresentou ligação para este locus. Os eventos de recombinação nesta família localizaram o gene num intervalo de 2 cM entre os marcadores D3S3669 e D3S2305. O lod score máximo obtido foi de 3,56 no theta de 0,00 com o marcador D3S3669. A terceira família não apresentou ligação nos cromossomos 3q28-29 e 18q12.2-12.3. Conclusão: O fato da terceira família não mapear para nenhum dos dois loci já descritos é indicativo de que existe heterogeneidade genética na atrofia óptica autossômica dominante e levanta a possibilidade de existir um terceiro locus para esta doença.Universidade Federal de São Paulo (UNIFESP) Departamento de OftalmologiaJohns Hopkins Hospital Wilmer Eye Institute Johns Hopkins Center for Hereditary Eye DiseasesUNIFESP, Depto. de OftalmologiaSciEL

A Case of Chorioretinal Coloboma in a Patient with Achondroplasia

Achondroplasia is a congenital disorder resulting from a specific disturbance in endochondral bone formation. The ophthalmic features reportedly associated with achondroplasia are telecanthus, exotropia, inferior oblique overaction, angle anomalies and cone-rod dystrophy. This is first report of chorioretinal coloboma in achondroplasia. An 8-year-old female was diagnosed with a developmental delay, known as achondroplasia, seven months after birth. Upon her initial visit, visual acuity was 0.3 in both eyes. The patient had telecanthus but normal ocular motility. Findings were normal upon anterior segment examination. Fundus examination of both eyes revealed about 1,500 µm sized chorioretinal coloboma inferior to the optic nerve head. Upon fluorescent angiography, there was chorioretinal coloboma without any other lesions. Afterward, there was no change in the fundus lesion, and best corrected visual acuity was 0.6 in both eyes. Chorioretinal coloboma is associated with choroidal and retinal detachment. As chorioretinal coloboma and achondroplasia are developmental disorders in the embryonic stage, early detection and regular ophthalmologic examination would be essential in patients with achondroplasia

A Case of Epithelial Inclusion Cyst of Iris

To report on an epithelial inclusion cyst of the iris that was successfully treated with needle aspiration and Ab externo laser photocoagulation. A 6-year-old boy was treated for a 6.0 mm fluid-filled cyst in the anterior chamber of the right eye. Thirteen months previously, he had undergone primary closure of a 6 mm full-thickness corneal laceration. The subsequent cyst was diagnosed as an epithelial inclusion cyst of the iris. His vision decreased to finger-count at 30 cm as the cyst grew over the pupil. We performed needle aspiration of the cyst and Ab externo laser photocoagulation of the cyst wall. The treated lesion was completely removed. The patient's visual acuity recovered to 20/40 without complications. There was no recurrence as determined by slit lamp examination up to 6 months after treatment. Needle aspiration and Ab externo laser photocoagulation can be used to effectively treat epithelial inclusion cysts of the iris

Gene therapy in patient-specific stem cell lines and a preclinical model of retinitis pigmentosa with membrane frizzled-related protein defects

Defects in Membrane Frizzled-related Protein (MFRP) cause autosomal recessive retinitis pigmentosa (RP). MFRP codes for a retinal pigment epithelium (RPE)-specific membrane receptor of unknown function. In patient-specific induced pluripotent stem (iPS)-derived RPE cells, precise levels of MFRP, and its dicistronic partner CTRP5, are critical to the regulation of actin organization. Overexpression of CTRP5 in naive human RPE cells phenocopied behavior of MFRP-deficient patient RPE (iPS-RPE) cells. AAV8 (Y733F) vector expressing human MFRP rescued the actin disorganization phenotype and restored apical microvilli in patient-specific iPS-RPE cell lines. As a result, AAV-treated MFRP mutant iPS-RPE recovered pigmentation and transepithelial resistance. The efficacy of AAV-mediated gene therapy was also evaluated in Mfrp(rd6)/Mfrp(rd6) mice--an established preclinical model of RP--and long-term improvement in visual function was observed in AAV-Mfrp-treated mice. This report is the first to indicate the successful use of human iPS-RPE cells as a recipient for gene therapy. The observed favorable response to gene therapy in both patient-specific cell lines, and the Mfrp(rd6)/Mfrp(rd6) preclinical model suggests that this form of degeneration caused by MFRP mutations is a potential target for interventional trials

Significant ophthalmoarthropathy associated with ectodermal dysplasia in a child with Marshall-Stickler overlap: a case report

© 2008 Al Kaissi et al; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution Licens

Comparative evaluation of diode laser versus argon laser photocoagulation in patients with central serous retinopathy: A pilot, randomized controlled trial [ISRCTN84128484]

BACKGROUND: To evaluate the efficacy of diode laser photocoagulation in patients with central serous retinopathy (CSR) and to compare it with the effects of argon green laser. METHODS: Thirty patients with type 1 unilateral CSR were enrolled and evaluated on parameters like best corrected visual acuity (BCVA), direct and indirect ophthalmoscopy, amsler grid for recording scotoma and metamorphopsia, contrast sensitivity using Cambridge low contrast gratings and fluorescein angiography to determine the site of leakage. Patients were randomly assigned into 2 groups according to the statistical random table using sequence generation. In Group 1 (n = 15), diode laser (810 nm) photocoagulation was performed at the site of leakage while in Group 2 (n = 15), eyes were treated with argon green laser (514 nm) using the same laser parameters. Patients were followed up at 4, 8 and 12 weeks after laser. RESULTS: The mean BCVA in group 1 improved from a pre-laser decimal value of 0.29 ± 0.14 to 0.84 ± 0.23 at 4 weeks and 1.06 ± 0.09 at 12 weeks following laser. In group 2, the same improved from 0.32 ± 0.16 to 0.67 ± 0.18 at 4 weeks and 0.98 ± 0.14 at 12 weeks following laser. The improvement in BCVA was significantly better in group 1 (p < 0.0001) at 4 weeks. At 4 weeks following laser, all the patients in group1 were free of scotoma while 6 patients in group 2 had residual scotoma (p < 0.05). The mean contrast sensitivity in group 1 improved from pre-laser value of 98.4 ± 24.77 to 231.33 ± 48.97 at 4 weeks and 306.00 ± 46.57 at 12 weeks following laser. In group 2, the same improved from 130.66 ± 31.95 to 190.66 ± 23.44 at 4 weeks and 215.33 ± 23.25 at 12 weeks. On comparative evaluation, a significantly better (p < 0.001) improvement was noted in group 1. CONCLUSION: Diode laser may be a better alternative to argon green laser whenever laser treatment becomes indicated in patients with central serous retinopathy in terms of faster visual rehabilitation and better contrast sensitivity. In addition, diode laser also has the well-recognized ergonomic and economic advantages