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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
21                      Nine subjects (26%) had epiretinal membrane and 6 (17%) had MH (mean diameter 18
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
24                                   IDIOPATHIC EPIRETINAL MEMBRANE AND VITREOMACULAR TRACTION PREFERRED
25 R) GUIDELINES: New evidence-based Idiopathic Epiretinal Membrane and Vitreomacular Traction Preferred
26                                 Cells within epiretinal membranes and activated Muller cells were pre
27                                HRPE cells in epiretinal membranes and in culture expressed c-Met.
28                                 In eyes with epiretinal membranes and retinal surface wrinkling, uvei
29                                 Eyes without epiretinal membranes and with epiretinal membranes witho
30 oid layer and was associated with tractional epiretinal membranes and/or vitreomacular traction.
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.
33 mia, foveal hemorrhage, vitreous hemorrhage, epiretinal membrane, and retinal detachment.
34 opathy, ophthalmological lesions (cataracts, epiretinal membranes, and retinal hamartomas), and cutan
35                                              Epiretinal membranes are associated with macular cysts,
36                                              Epiretinal membranes are commonly encountered in retinal
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
40 f small and medium FTMH, and in FTMH without epiretinal membrane at baseline.
41                             All six diabetic epiretinal membranes contained positively identified Mul
42  and PDGF, both of which are associated with epiretinal membrane development.
43 e had a higher growth rate than eyes without epiretinal membrane (difference, 0.16; 95% CI, 0.03-0.30
44                        These factors include epiretinal membranes, edema, individual variation in fie
45                Surgical indications included epiretinal membrane (ERM) (n = 121), vitreous floaters (
46 00 (Carl Zeiss Meditech, Jena, Germany) with epiretinal membrane (ERM) and internal retinal membrane
47 e the causes of diplopia in patients with an epiretinal membrane (ERM) and presenting diplopia.
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
50 nal reattachment rate, final VA, and rate of epiretinal membrane (ERM) formation at month 6.
51 , the intraretinal glial response results in epiretinal membrane (ERM) formation, a proliferative and
52                                         More epiretinal membrane (ERM) formations occurred postoperat
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
57 epiretinal proliferation (LHEP) and standard epiretinal membrane (ERM).
58 hment (RD), cystoid macular edema (CME), and epiretinal membrane (ERM).
59 ickness macular hole (FTMH), and presence of epiretinal membrane (ERM).
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
63                                              Epiretinal membranes (ERMs) were present in 71% of eyes
64 ns of the central bouquet (CB) in idiopathic epiretinal membranes (ERMs).
65 n younger patients (<65 years), eyes without epiretinal membrane, eyes with FTMH, phakic eyes, and ey
66                          Patients who had an epiretinal membrane for more than 18 months had signific
67                         Optic disc edema and epiretinal membrane formation was found more frequently
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
70                                    Eyes with epiretinal membrane had a higher growth rate than eyes w
71 ile of cells growing out of human idiopathic epiretinal membranes (iERMs) and testing their prolifera
72 leptin and leptin receptor were localized in epiretinal membranes immunohistochemically.
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%) (
75        We observed retinal hamartomas and/or epiretinal membranes in nine patients from five families
76                                              Epiretinal membrane is a common complication of uveitis
77 .6 vs. 0.52); FTMH (kappa 0.9 vs. 0.78); and epiretinal membrane (kappa 0.65 vs. 0.45).
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
80                           The development of epiretinal membranes may be associated with either vitre
81 n of the retinal inner layers (DRIL), cysts, epiretinal membranes, microaneurysms, subretinal fluid,
82                Surgical indications included epiretinal membrane (n = 26), diabetic tractional retina
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.
86 ptin receptor were detected in fibrovascular epiretinal membrane of patients with diabetes.
87 eas myofibroblasts dominated in conventional epiretinal membranes of macular pseudoholes.
88 eptors (PDGFRs) are present and activated in epiretinal membranes of patient donors, and they are ess
89       Seventy-two eyes of 59 patients had an epiretinal membrane on presentation.
90           Despite the absence of contractive epiretinal membranes on optical coherence tomography, we
91                                  Contractile epiretinal membranes on the inner retinal surface that c
92 naive wet AMD group (group 3, n = 10) and an epiretinal membrane or macular hole group (group 4, n =
93 ohorts with wet AMD and a control group with epiretinal membrane or macular hole.
94 3 months (20/94 vs 20/35 for eyes without an epiretinal membrane, P = .002) and at 6 months follow-up
95 llow-up (20/110 vs 20/36 for eyes without an epiretinal membrane, P = .02).
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
99      These conditions include macular holes, epiretinal membranes, retinal detachments, and retinopat
100 lusion (RR 12.9), macular hole (RR 7.7), and epiretinal membrane (RR 5.7).
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
103 r changes increased at advanced glaucoma and epiretinal membrane stages.
104  retinoschisis, myopic traction maculopathy, epiretinal membrane, vitreoretinal traction, optic or sc
105                                              Epiretinal membrane was found in 7 eyes after endophthal
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
108 ue to undergo PPV for either macular hole or epiretinal membrane were recruited.
109                                              Epiretinal membranes were diagnosed when identified by 2
110 nsecutive patients diagnosed with idiopathic epiretinal membranes were reviewed and analyzed.
111                                  Sections of epiretinal membranes were stained immunohistochemically
112                     Conversely, eyes with an epiretinal membrane with retinal surface wrinkling had a
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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