Evaluation of macular structure and function by OCT and electrophysiology in patients with vitelliform macular dystrophy due to mutations in BEST1

Patrik Schatz; Hanna Bitner; Birgit Sander; Stig Holfort; Sten Andreasson; Michael Larsen; Dror Sharon

doi:10.1167/iovs.10-5152

Evaluation of macular structure and function by OCT and electrophysiology in patients with vitelliform macular dystrophy due to mutations in BEST1

Patrik Schatz, Hanna Bitner, Birgit Sander, Stig Holfort, Sten Andreasson, Michael Larsen, Dror Sharon

30 Citationer (Scopus)

Abstract

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.

Originalsprog	Engelsk
Tidsskrift	Investigative Ophthalmology & Visual Science
Vol/bind	51
Udgave nummer	9
Sider (fra-til)	4754-65
Antal sider	12
ISSN	0146-0404
DOI	https://doi.org/10.1167/iovs.10-5152
Status	Udgivet - 1 sep. 2010

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10.1167/iovs.10-5152

https://iovs.arvojournals.org/data/journals/iovs/932963/z7g00910004754.pdf

Citationsformater

Evaluation of macular structure and function by OCT and electrophysiology in patients with vitelliform macular dystrophy due to mutations in BEST1. / Schatz, Patrik; Bitner, Hanna; Sander, Birgit et al.

I: Investigative Ophthalmology & Visual Science, Bind 51, Nr. 9, 01.09.2010, s. 4754-65.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

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title = "Evaluation of macular structure and function by OCT and electrophysiology in patients with vitelliform macular dystrophy due to mutations in BEST1",

abstract = "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.",

author = "Patrik Schatz and Hanna Bitner and Birgit Sander and Stig Holfort and Sten Andreasson and Michael Larsen and Dror Sharon",

year = "2010",

month = sep,

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doi = "10.1167/iovs.10-5152",

language = "English",

volume = "51",

pages = "4754--65",

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TY - JOUR

T1 - Evaluation of macular structure and function by OCT and electrophysiology in patients with vitelliform macular dystrophy due to mutations in BEST1

AU - Schatz, Patrik

AU - Bitner, Hanna

AU - Sander, Birgit

AU - Holfort, Stig

AU - Andreasson, Sten

AU - Larsen, Michael

AU - Sharon, Dror

PY - 2010/9/1

Y1 - 2010/9/1

N2 - 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.

AB - 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.

U2 - 10.1167/iovs.10-5152

DO - 10.1167/iovs.10-5152

M3 - Journal article

SN - 0146-0404

VL - 51

SP - 4754

EP - 4765

JO - Investigative Ophthalmology & Visual Science

JF - Investigative Ophthalmology & Visual Science

IS - 9

ER -

Evaluation of macular structure and function by OCT and electrophysiology in patients with vitelliform macular dystrophy due to mutations in BEST1

Abstract

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