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1 , vitreomacular interface abnormalities, and epiretinal membrane.
2 nal detachment at macula while the other, an epiretinal membrane.
3 tractive properties were termed conventional epiretinal membrane.
4 for FTMH width, vitreomacular adhesion, and epiretinal membrane.
5 cular pseudohole presented with conventional epiretinal membrane.
6 s with ocular pathologic features such as an epiretinal membrane.
7 logic features, primarily the presence of an epiretinal membrane.
8 as little or no HGFR was found in idiopathic epiretinal membranes.
9 oliferative vitreoretinopathy and idiopathic epiretinal membranes.
10 on and decreased alpha-SMA expression in the epiretinal membranes.
11 active properties than cells of conventional epiretinal membranes.
12 opathy, 7 had retinal detachments, and 9 had epiretinal membranes.
13 promoted the development of dense, fibrotic epiretinal membranes.
14 ommon complications were cataract (0.31/EY), epiretinal membrane (0.16/EY), and recurrent macular ede
15 er were diagnosed in 52 out of 264 eyes with epiretinal membranes (19.7%), of which 28 (55.0%) had co
16 l subfield thicknesses were: eyes without an epiretinal membrane, 338 +/- 23 mum; and eyes with an ep
17 roliferative diabetic retinopathy (PDR) (5), epiretinal membrane (4), vitreomacular traction syndrome
18 ntraocular pressure (IOP); (7) macula pucker/epiretinal membrane; (8) cataract; and (9) quality of li
19 %), and all other baseline parameters except epiretinal membrane (84.3%), which was detected at a sig
20 (aHR, 1.43) and >/=2+ (aHR, 1.59) vs. none; epiretinal membrane (aHR, 1.25); peripheral anterior syn
22 inner nuclear layer in eyes with concomitant epiretinal membrane and glaucomatous optic neuropathy.
23 l membrane, 338 +/- 23 mum; and eyes with an epiretinal membrane and surface wrinkling, 405 +/- 22 mu
25 R) GUIDELINES: New evidence-based Idiopathic Epiretinal Membrane and Vitreomacular Traction Preferred
31 , cataract, vitritis, cystoid macular edema, epiretinal membrane, and disc edema may occur in patient
32 lar edema, posterior capsular opacification, epiretinal membrane, and intraocular lens subluxation.
34 opathy, ophthalmological lesions (cataracts, epiretinal membranes, and retinal hamartomas), and cutan
37 n of HGFR in human donor eyes and in several epiretinal membranes associated with proliferative vitre
38 n of HGFR in human donor eyes and in several epiretinal membranes associated with proliferative vitre
39 eadily detected in the cellular component of epiretinal membranes associated with PVR, whereas little
43 e had a higher growth rate than eyes without epiretinal membrane (difference, 0.16; 95% CI, 0.03-0.30
46 00 (Carl Zeiss Meditech, Jena, Germany) with epiretinal membrane (ERM) and internal retinal membrane
48 selected among 369 patients examined for an epiretinal membrane (ERM) by Cirrus spectral-domain OCT
49 , or vehicle, and at appropriate time points epiretinal membrane (ERM) formation and retinal detachme
51 , the intraretinal glial response results in epiretinal membrane (ERM) formation, a proliferative and
53 e and clinical associations of patients with epiretinal membrane (ERM) who develop central-peripheral
54 (PPV): 6 for vitreous hemorrhage (VH), 1 for epiretinal membrane (ERM), and an additional 8 for tract
55 criteria included FTMH >400 mum, presence of epiretinal membrane (ERM), and aphakia in the study eye.
56 ndergoing pars plana vitrectomy to remove an epiretinal membrane (ERM), and test subjects (n = 7) wit
60 , and fibroblasts (the cell types crucial in epiretinal membrane [ERM] formation) under identical mic
61 ectopic inner foveal layers associated with epiretinal membranes (ERMs) and to present a new optical
62 The development of symptoms in patients with epiretinal membranes (ERMs) often corresponds with the a
65 n younger patients (<65 years), eyes without epiretinal membrane, eyes with FTMH, phakic eyes, and ey
68 cluding postoperative cystoid macular edema, epiretinal membrane formation, macular folds, and, ultim
69 ces (ECM) is important in the development of epiretinal membranes found in proliferative vitreoretino
71 ile of cells growing out of human idiopathic epiretinal membranes (iERMs) and testing their prolifera
73 native internal limiting membrane in 2 eyes, epiretinal membrane in 1 eye, and remnant cortical vitre
74 8 eyes (29%) and 6 eyes (38%) (P = .34), and epiretinal membrane in 5 eyes (20.8%) and 4 eyes (25%) (
78 pathy, retinal vein occlusion, macular hole, epiretinal membrane, macular degeneration, retinal detac
79 e diabetic retinopathy, and the other 13 for epiretinal membrane, macular hole, vitreous opacities, o
81 n of the retinal inner layers (DRIL), cysts, epiretinal membranes, microaneurysms, subretinal fluid,
83 fluid (n = 6), subretinal exudation (n = 6), epiretinal membrane (n = 3), retinal hemorrhage (n = 2),
84 cyclitic membrane (n = 18, 69%), neoplastic epiretinal membrane (n = 6, 23%), and persistent hyaloid
85 he RPE monolayer in human donor eyes, and in epiretinal membranes obtained from patients with PVR.
88 eptors (PDGFRs) are present and activated in epiretinal membranes of patient donors, and they are ess
92 naive wet AMD group (group 3, n = 10) and an epiretinal membrane or macular hole group (group 4, n =
94 3 months (20/94 vs 20/35 for eyes without an epiretinal membrane, P = .002) and at 6 months follow-up
96 epiretinal proliferation, whereas tractional epiretinal membranes presenting contractive properties w
97 etinal Defect Associated With High Myopia or Epiretinal Membrane," published online January 22, 2015,
98 patients in the single-peeling group had an epiretinal membrane remaining in the central fovea posto
101 al [CI], 1.57-4.34), a previous diagnosis of epiretinal membrane (RR, 5.60; 95% CI, 3.45-9.07), uveit
102 ted internal limiting membrane specimens and epiretinal membrane specimens removed from 25 eyes of 25
104 retinoschisis, myopic traction maculopathy, epiretinal membrane, vitreoretinal traction, optic or sc
106 fects of "single peeling," in which only the epiretinal membrane was peeled, and "double peeling," in
107 ative vitreoretinopathy (PVR) and idiopathic epiretinal membranes was analyzed by immunohistochemistr
113 er nuclear layer in patients with idiopathic epiretinal membranes, with and without glaucomatous opti
114 Eyes without epiretinal membranes and with epiretinal membranes without surface wrinkling were not
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