Patrik Schatz

Variant Phenotype of Best Vitelliform Macular Dystrophy Associated with Compound Heterozygous Mutations in VMD2

Purpose: To characterize the phenotype of members of a Swedish family with Best macular dystrophy and two distinct mutations in VMD2. Methods: Venous blood samples were obtained from six family members and screened for mutations in VMD2. Six individuals were examined clinically, four of whom were further investigated with full-field electroretinography (ERG), electro-oculography (EOG), multifocal electroretinography (mfERG), and optical coherence tomography (OCT). Results: The VMD2 mutations resulting in Arg141His and Tyr29stop were identified in family members. Two individuals harbored both mutations, one mutation in each VMD2 allele. These two family members had an abnormal EOG and their full-field ERG demonstrated widespread degeneration with a prolonged implicit time in the cone 30-Hz flicker ERG. MfERG verified reduction of the central retinal function and OCT demonstrated intraretinal fluid, swelling, and thickening of the outer retina-RPE-choroid complex (ORCC). Conclusion: A previously undescribed severe form of Best macular dystrophy is associated with compound heterozygous mutations in VMD2.

Fundus albipunctatus associated with compound heterozygous mutations in RPE65.

PURPOSE To describe a family with an 18-year-old woman with fundus albipunctatus and compound heterozygous mutations in RPE65 whose unaffected parents and 1 female sibling harbored single heterozygous RPE65 mutations. DESIGN Observational study. PARTICIPANTS Four family members. METHODS Clinical examinations included full-field electroretinogram (ffERG) after standard (30-minute) and prolonged (17-hour) dark adaptation, multifocal electroretinogram (mfERG), optical coherence tomography (OCT), and fundus autofluorescence (FAF). Molecular genetic testing included sequencing of RDH5 and RLBP1 and screening for known autosomal-recessive retinitis pigmentosa mutations by a commercially available microarray technique. RPE65 sequencing was performed after the identification of a known heterozygous splice-site mutation by array screening. MAIN OUTCOME MEASURES We recorded ffERG and mfERG amplitudes, OCT characteristics, the FAF intensity index, and the outcomes of DNA sequencing regarding RPE65 mutations. RESULTS Uniform, yellow-white dots typical of fundus albipunctatus were demonstrated in the proband. These dots corresponded with discrete, hyperreflective formations extending from the Bruchs membrane and retinal pigment epithelium (RPE) into the level of the external limiting membrane, thus spanning along the entire RPE and photoreceptor outer and inner segments. A reduced thickness of the central retina and the RPE-outer segment complex was demonstrated. The intensity of the FAF was severely reduced in the entire fundus. At age 18, ffERG-including prolonged dark adaptation-demonstrated a barely recordable rod response after standard dark adaptation and normalization (increase by more than 700%) of the response after prolonged dark adaptation. The cone 30-Hz flicker response was reduced after standard dark adaptation and increased by >50% after prolonged dark adaptation. In addition, mfERG demonstrated reduced central and peripheral responses. Molecular genetic analysis demonstrated compound heterozygous mutations (IVS1+5G>A and c.344T>C) in RPE65. No mutations were found in RDH5 or RLBP1. No significant abnormalities of retinal structure or function were detected in the parents and sister carrying single heterozygous mutations in RPE65. CONCLUSIONS This is the first reported association between compound heterozygous RPE65 mutations and fundus albipunctatus, indicative of a mutation-specific phenotypic effect in this gene. This finding, together with the reduced FAF, supports that disruption of retinoid recycling in the RPE is essential for the development of fundus albipunctatus.

Evaluation of Macular Structure and Function by OCT and Electrophysiology in Patients with Vitelliform Macular Dystrophy Due to Mutations in BEST1

PURPOSE To analyze retinal structure and function in vitelliform macular dystrophy (VMD) due to mutations in BEST1. METHODS Patients from five Swedish and four Danish families were examined with electrooculography (EOG), full-field electroretinography (ffERG), multifocal ERG (mfERG), optical coherence tomography (OCT), and fundus autofluorescence photography (FAF). Genetic analysis of the BEST1 gene was performed by direct sequencing. RESULTS Mutations in BEST1 have been reported previously in the Swedish families. In the Danish families, four disease-causing missense mutations were found, one of which is novel: c.936C>A (p.Asp312Glu). The mutation was homozygous in a 9-year-old boy and heterozygous in his father in a consanguineous family. ffERG rod response was reduced in the homozygous boy, but normal in the heterozygous father. EOG was reduced in all but two patients and did not correlate with the ffERG results. OCT ranged from normal to cystoid edema and thickening of the outer retina-choroid complex. Decreased mfERG amplitudes, increased mfERG latencies, and loss of integrity of the foveal photoreceptor inner/outer segment junction, correlated with decreased vision. FAF demonstrated hyperautofluorescence beyond the ophthalmoscopic changes in several patients. CONCLUSIONS The finding of a homozygous dominant mutation in a patient with VMD and evidence of widespread retinal degeneration may imply that the pathogenesis of the generalized retinal degeneration differs from that of the macular degeneration. A relative agreement between hyperautofluorescence by FAF, reduced retinal function, and VMD implies that the hyperautofluorescence emanates from lipofuscin and A2E. A potential therapy for VMD, involving the inhibition of the retinoid cycle, is suggested.

LACK OF AUTOFLUORESCENCE IN FUNDUS ALBIPUNCTATUS ASSOCIATED WITH MUTATIONS IN RDH5.

Purpose: The purpose of this study was to characterize the phenotype of fundus albipunctatus associated with RDH5 mutations. Methods: Four unrelated patients (patients 1-4) aged 35, 32, 19, and 8 years were examined with full-field electroretinography, multifocal electroretinography, optical coherence tomography, and fundus autofluorescence photography. Molecular genetic investigations included sequencing of RDH5 and RLBP1. Results: Patients 1 to 3 harbored homozygous mutations (c.881G>C, c.625C>T, and c.382G>A, respectively) and patient 4 harbored the compound heterozygous mutations (c.95delT and c.712G>T) in RDH5. A large variability in retinal dysfunction caused by RDH5 mutations was found but not fully explained by a simple prediction of reduced enzymatic function. All patients showed lack of autofluorescence of the fundus, indicating a reduced supply of 11-cis retinal to the photoreceptors. The lesions corresponding to the white dots did not autofluoresce and were seen on optical coherence tomography as discrete hyperreflective elements in the outer retina extending from the external limiting membrane to Bruch membrane. Conclusion: Mutations in RDH5 associated with fundus albipunctatus seem to prevent normal lipofuscin accumulation. A relatively good functional status of 2 of 3 adult patients indicates that interference with 11-cis retinol dehydrogenase function may be a promising strategy for therapeutic intervention in retinal disorders featuring excessive lipofuscin accumulation.

Retinal function after scleral buckling for recent onset rhegmatogenous retinal detachment: assessment with electroretinography and optical coherence tomography.

Purpose: To investigate central and peripheral retinal function after scleral buckling surgery for recent onset rhegmatogenous retinal detachment (RD). Methods: Fifteen phakic patients with rhegmatogenous RD for <1 week underwent scleral buckling surgery. Clinical investigation, optical coherence tomography (OCT), full-field electroretinography (ERG), and multifocal ERG (mfERG) with fundus illumination were performed preoperatively and 6 months postoperatively. Results: Anatomical success was achieved in 14 patients. mfERG amplitudes were reduced preoperatively in detached retina, with significant improvement at follow-up (P = 0.002). Foveal amplitudes improved significantly (P = 0.027). There was no significant difference in postoperative mfERG amplitudes between areas that had been preoperatively detached or attached (P = 0.739). In the subgroup of eight patients in whom the detachment engaged the fovea preoperatively, rod function improved significantly as assessed with full-field ERG (P = 0.008). In these patients, the extent of detachment ranged between 4 clock hours and 6 clock hours, as compared with 2 clock hours and 5 clock hours in the remaining patients. OCT showed subretinal foveal fluid in four patients at follow-up. Conclusions: In recent onset rhegmatogenous RD, total rod and localized central retinal dysfunction in detached retina can improve significantly after reattachment. mfERG and OCT are suitable tools for further studies of functional outcomes in RD.

Morphological and functional changes in multifocal vitelliform retinopathy and biallelic mutations in BEST1

Purpose: To describe morphological and functional changes in a single patient with multifocal Best vitelliform macular dystrophy (BVMD) and to perform a genotype/phenotype correlation. Methods: The proband with multifocal BVMD and three of her family members were examined with electrooculography (EOG), full-field electroretinography (full-field ERG), multifocal electroretinography (mfERG) and optical coherence tomography (OCT). Genomic DNA was screened for mutation in the BEST1 gene by DNA sequencing analysis. Results: The proband was observed regularly during a follow-up period of 4 years. Full-field ERG demonstrated reduced and delayed responses of both rods and cones. OCT demonstrated intra- and subretinal fluid which seemed to fluctuate with periods of stress, similar to that seen in chronic central serous chorioretinopathy. Two distinct heterozygous BEST1 mutations were identified in the proband, the recurrent p.R141H mutation and the p.P233A mutation. Heterozygous p.R141H mutations were also identified in two family members, while p.P233A was a de novo mutation. Abnormal EOG findings were observed in both the proband and in the carriers of p.R141H. Heterozygous carriers showed delayed implicit times in a- and b-waves of combined total rod and cone full-field ERG responses. Conclusions: The p.R141H mutation is frequently seen together with multifocal vitelliform retinopathy and biallelic mutations in BEST1. Our results show that carriers of the p.R141H mutation are clinically unaffected but present with abnormal EOG and full-field ERG findings. A patient with biallelic mutations of the BEST1 gene, causing multifocal BVMD with progressive, widespread functional disturbance of the retina, confirmed by full-field and mfERG is described.

Frequency, Genotype, and Clinical Spectrum of Best Vitelliform Macular Dystrophy: Data From a National Center in Denmark

PURPOSE To estimate the prevalence, genotype, and clinical spectrum of Best vitelliform macular dystrophy (Best disease). DESIGN Retrospective epidemiologic and clinical and molecular genetic observational study. METHODS setting: National referral center. participants: Forty-five individuals diagnosed with Best disease. observation procedures: Retrospective review of patients diagnosed according to clinical findings and sequencing of BEST1. Patients with recently established molecular genetic diagnosis were followed up including multifocal electroretinography (mfERG), spectral-domain optical coherence tomography (SD-OCT), and fundus autofluorescence (FAF) imaging. main outcome measures:BEST1 mutations, SD-OCT and FAF findings, mfERG amplitudes, prevalence estimate of Best disease. RESULTS BEST1 mutations described previously in Danish patients with Best disease are reviewed. In addition, we identified a further 8 families and 1 sporadic case, in whom 6 BEST1 missense mutations were found, 4 of which are novel. The mutation c.904G>T (p.Asp302Asn) was identified in members of 4 unrelated families. Structural alterations ranged from precipitate-like alterations at the level of the photoreceptor outer segments (OS) to choroidal neovascularization. The extent of the former correlated with the reduction of retinal function. A prevalence estimate of Best disease in Denmark based on the number of diagnosed cases was 1.5 per 100 000 individuals. CONCLUSIONS Our data expand the mutation spectrum of BEST1 in patients with Best disease. Alterations of the OS overlying lesions with subretinal fluid are similar to those seen in central serous retinopathy and may indicate impaired turnover of OS. Our frequency estimate confirms that Best disease is one of the most common causes of early macular degeneration.

Clinical phenotype in a Swedish family with a mutation in the IMPDH1 gene.

Purpose: Mutations in the inosine monophosphate dehydrogenase 1 gene (IMPDH1) have recently been discovered to cause a form of autosomal dominant retinitis pigmentosa (adRP). Such mutations are estimated to account for approximately 2–5% of the adRP cases among Americans of European origin and Europeans. Aiming towards an understanding of the molecular background of retinitis pigmentosa, this paper describes the phenotype of a Swedish family with a mutation in IMPDH1. Methods: Venous blood samples were obtained from 12 family members and screened for mutations in IMPDH1. Six individuals with the mutation were examined clinically and with full-field electroretinography (ERG), dark adaptometry, multifocal electroretinography (mfERG), and optical coherence tomography (OCT). Also reviewed were the clinical findings and ERGs obtained 14 years earlier. Results: The proband and eight other relatives from three generations were found to harbor the Asp226Asn mutation in IMPDH1. These individuals, from three generations, showed clinical and electrophysiological signs of retinitis pigmentosa. The cone responses to the full-field, 30-Hz flicker ERG demonstrated an unusual pattern, with implicit times within normal limits or only slightly prolonged. Rod ERG responses, however, were undetectable. OCT showed intraretinal fluid and swelling, changes that were more pronounced in younger individuals. mfERG showed residual preserved central function. The older the individual, the smaller the area of preserved central function. Conclusion: In this family with a mutation in IMPDH1, we found a specific phenotype with rod function affected more than cone function, foveal edema, and central retinal function preserved for a long period of time. Foveal edema could be a pathogenic feature in this form of retinal degeneration.

Ocular phenotype analysis of a family with biallelic mutations in the BEST1 gene.

PURPOSE To investigate the genetic cause and perform a comprehensive clinical analysis of a Danish family with autosomal recessive bestrophinopathy; to investigate whether Bestrophin may be expressed in normal human retina. DESIGN Retrospective clinical and molecular genetic analysis and immunohistochemical observational study. METHODS setting: National referral center. participants: A family with 5 individuals and biallelic BEST1 mutations, and enucleated eyes from 2 individuals with nonaffected retinas. observation procedures: Molecular genetic analysis included sequencing of BEST1 and co-segregation analysis. Clinical investigations included electro-oculography, full-field electroretinography, multifocal electroretinography, spectral-domain optical coherence tomography, and fundus autofluorescence imaging. Immunohistochemical analysis was performed. main outcome measures: BEST1 mutations, imaging findings, electroretinography amplitudes, and implicit times. RESULTS The index case was compound heterozygous for p.A195V and a novel 15 base pair deletion leading to p.Q238L. The index case at age 10 demonstrated multifocal vitelliform changes that were hyperautofluorescent, cystoid macular edema in the inner nuclear layer, no light rise in the electro-oculography, and a reduced central but preserved peripheral retinal function by multifocal electroretinography. Full-field electroretinography demonstrated a reduced rod response and inner retina dysfunction. Retinal structure was normal in all 3 family members who carried a sequence change in BEST1. Electro-oculography light peak was reduced in both the mother and sister (heterozygous for p.Q238L). Immunohistochemistry could not confirm the presence of Bestrophin in normal human retina. CONCLUSIONS Because of a relatively well preserved retinal function, autosomal recessive bestrophinopathy may be a suitable first candidate, among the BEST1-related ocular conditions, for gene replacement therapy.

Update on clinical trials in dry Age-related macular degeneration

This review article summarizes the most recent clinical trials for dry age.related macular degeneration (AMD), the most common cause of vision loss in the elderly in developed countries. A literature search through websites https://www.pubmed.org and https://www.clinicaltrials.gov/, both accessed no later than November 04, 2015, was performed. We identified three Phase III clinical trials that were completed over the recent 5 years Age.Related Eye Disease Study 2 (AREDS2), implantable miniature telescope and tandospirone, and several other trials targeting a variety of mechanisms including, oxidative stress, complement inhibition, visual cycle inhibition, retinal and choroidal blood flow, stem cells, gene therapy, and visual rehabilitation. To date, none of the biologically oriented therapies have resulted in improved vision. Vision improvement was reported with an implantable mini telescope. Stem cells therapy holds a potential for vision improvement. The AREDS2 formulas did not add any further reduced risk of progression to advanced AMD, compared to the original AREDS formula. Several recently discovered pathogenetic mechanisms in dry AMD have enabled development of new treatment strategies, and several of these have been tested in recent clinical trials and are currently being tested in ongoing trials. The rapid development and understanding of pathogenesis holds promise for the future.