Associations between metamorphopsia and foveal microstructure in patients with epiretinal membrane.

PURPOSE To investigate the relationship between the severity of metamorphopsia and the foveal microstructure measured with spectral-domain optical coherence tomography (SD-OCT) in patients with epiretinal membrane (ERM). METHODS This study included 48 eyes of 48 patients with idiopathic ERM and 18 age-matched normal controls. We examined the logarithm of the minimum angle of resolution best-corrected visual acuity (logMAR BCVA) and the severity of metamorphopsia using M-CHARTS. Central foveal thickness (CFT), central retinal thickness at the fovea (CRT-1mm) and parafovea (CRT-3mm), and macular volume (MV) were measured with SD-OCT software. Based on the obtained OCT image, we divided the 1.0 × 1.0-mm area centered on the fovea into nine sections and quantified the following parameters using an image-processing program: mean thickness of the ganglion cell layer (GCL), inner nuclear layer (INL), and outer retinal layer (ONL+OPL: outer nuclear layer and outer plexiform layer), the degree of the photoreceptor inner and outer segment junction (IS/OS), and external limiting membrane (ELM) disruption. RESULTS CFT, CRT-1mm, CRT-3mm, MV, mean GCL, INL, and ONL+OPL thickness were significantly larger in patients with ERM than in normal controls. Multiple regression analysis revealed that the severity of metamorphopsia was significantly related to the mean INL thickness (P < 0.0001). LogMAR BCVA had a significant correlation with the degree of IS/OS disruption (P < 0.05), whereas other parameters were not relevant. CONCLUSIONS In patients with idiopathic ERM, the degree of metamorphopsia is associated with INL thickness, and IS/OS status influences visual acuity.

[1]  P. Theodossiadis,et al.  The photoreceptor layer as a prognostic factor for visual acuity in the secondary epiretinal membrane after retinal detachment surgery: imaging analysis by spectral-domain optical coherence tomography. , 2011, American journal of ophthalmology.

[2]  Masanori Hangai,et al.  High-resolution imaging of the photoreceptor layer in epiretinal membrane using adaptive optics scanning laser ophthalmoscopy. , 2011, Ophthalmology.

[3]  S. Morita,et al.  Inner segment/outer segment junction assessed by spectral-domain optical coherence tomography in patients with idiopathic epiretinal membrane. , 2010, American journal of ophthalmology.

[4]  Y. Yu,et al.  Long-term temporal changes of macular thickness and visual outcome after vitrectomy for idiopathic epiretinal membrane. , 2010, American journal of ophthalmology.

[5]  Susanne Binder,et al.  Spectral-domain optical coherence tomography for monitoring epiretinal membrane surgery. , 2010, Ophthalmology.

[6]  Masanori Hangai,et al.  CORRELATION BETWEEN THICKENING OF THE INNER AND OUTER RETINA AND VISUAL ACUITY IN PATIENTS WITH EPIRETINAL MEMBRANE , 2010, Retina.

[7]  S. Fukuda,et al.  Vision-related quality of life and visual function after vitrectomy for various vitreoretinal disorders. , 2010, Investigative ophthalmology & visual science.

[8]  O. Nishi,et al.  Correlation between metamorphopsia and epiretinal membrane optical coherence tomography findings. , 2009, Ophthalmology.

[9]  T. Oshika,et al.  Effect of vitrectomy for epiretinal membrane on visual function and vision-related quality of life. , 2009, American journal of ophthalmology.

[10]  Y. Tano,et al.  Foveal microstructure and visual acuity after retinal detachment repair: imaging analysis by Fourier-domain optical coherence tomography. , 2009, Ophthalmology.

[11]  Min Hee Suh,et al.  Associations between macular findings by optical coherence tomography and visual outcomes after epiretinal membrane removal. , 2009, American journal of ophthalmology.

[12]  T. Baba,et al.  Correlation of visual recovery with presence of photoreceptor inner/outer segment junction in optical coherence images after epiretinal membrane surgery , 2008, British Journal of Ophthalmology.

[13]  Z. Michalewska,et al.  Morphologically functional correlations of macular pathology connected with epiretinal membrane formation in spectral optical coherence tomography (SOCT) , 2007, Graefe's Archive for Clinical and Experimental Ophthalmology.

[14]  C. Matsumoto,et al.  Quantification of metamorphopsia in a macular hole patient using M-CHARTS. , 2006, Acta ophthalmologica Scandinavica.

[15]  Wolfgang Drexler,et al.  Comparison of ultrahigh- and standard-resolution optical coherence tomography for imaging macular pathology. , 2005, Ophthalmology.

[16]  Shigeki Hashimoto,et al.  Retinal contraction and metamorphopsia scores in eyes with idiopathic epiretinal membrane. , 2005, Investigative ophthalmology & visual science.

[17]  P. Beaumont,et al.  Visual outcomes following vitrectomy and peeling of epiretinal membrane , 2005, Clinical & experimental ophthalmology.

[18]  S. Yoneya,et al.  COMPARISON OF EPIRETINAL MEMBRANES OF DIFFERING PATHOGENESIS USING OPTICAL COHERENCE TOMOGRAPHY , 2004, Retina.

[19]  Shigeki Hashimoto,et al.  Quantification of metamorphopsia in patients with epiretinal membranes. , 2003, Investigative ophthalmology & visual science.

[20]  J. Fujimoto,et al.  Enhanced visualization of macular pathology with the use of ultrahigh-resolution optical coherence tomography. , 2003, Archives of ophthalmology.

[21]  M. Kondo,et al.  Function and morphology of macula before and after removal of idiopathic epiretinal membrane. , 2003, Investigative ophthalmology & visual science.

[22]  J. V. van Meurs,et al.  Sine Amsler Charts: a new method for the follow-up of metamorphopsia in patients undergoing macular pucker surgery , 2003, Graefe's Archive for Clinical and Experimental Ophthalmology.

[23]  A Erginay,et al.  Optical coherence tomography of idiopathic macular epiretinal membranes before and after surgery. , 2000, American journal of ophthalmology.

[24]  R Brancato,et al.  Optical Coherence Tomography in Idiopathic Epiretinal Macular Membrane Surgery , 1999, European journal of ophthalmology.

[25]  M. Kondo,et al.  Abnormal focal macular electroretinograms in eyes with idiopathic epimacular membrane. , 1999, American journal of ophthalmology.

[26]  E Reichel,et al.  Characterization of epiretinal membranes using optical coherence tomography. , 1996, Ophthalmology.

[27]  J. Duker,et al.  Imaging of macular diseases with optical coherence tomography. , 1995, Ophthalmology.

[28]  M AMSLER,et al.  Earliest Symptoms of Diseases of the Macula *† , 1953, The British journal of ophthalmology.