ライフサイエンスコーパス: cystoid

1 However, the presence of foveal cystoid change is not significantly associated with post

2 yes were more likely to develop new or worse cystoid changes after the study midpoint (13 surgical ey

3 d for submacular fluid, size and location of cystoid changes, inner segment-outer segment (IS-OS) con

4 lium, pars plana, ora serrata pearl, typical cystoid degeneration (TCD), cystic retinal tuft, meridio

5 gressive disease activity, whereas secondary cystoid degeneration is the most relevant imaging marker

6 both subretinal fluid and posterior retinal cystoid degeneration respectively.

7 both subretinal fluid and posterior retinal cystoid degeneration, a dry macula was obtained in 75% a

8 namely subretinal fluid or posterior retinal cystoid degeneration.

9 might be high in eyes with posterior retinal cystoid degeneration.

10 ngs included hyperreflective spots (n = 11), cystoid edema (n = 5), and subretinal cleft (n = 6).

11 sity after subtraction of larger vessels and cystoid edema cavities.

12 artifactual interpretation of dark areas as cystoid edema may explain the greater frequency of IRF d

13 Areas of cystoid edema were associated with topographically co-lo

14 Areas of cystoid edema were associated with topographically coloc

15 tomatically detect and quantify intraretinal cystoid fluid (IRC) and subretinal fluid (SRF) was devel

16 ing centers for the presence of intraretinal cystoid fluid (IRC), subretinal fluid (SRF), and pigment

17 morphologic parameters included intraretinal cystoid fluid (IRC), subretinal fluid (SRF), pigment epi

18 This pattern of cystoid fluid accumulation is similar to that seen in di

19 Cystoid fluid collections (CFCs) were the first retinal

20 Cystoid fluid collections in the macula were found in 50

21 ophy, characterized primarily by early-onset cystoid fluid collections in the neuroretina, which dist

22 Pneumatosis cystoides interstitialis in the course of chronic graft-

23 Pneumatosis cystoides intestinalis (PCI) is a rare disorder characte

24 Pneumatosis cystoides intestinalis may be due to excessive hydrogen

25 inal deposits, subretinal fibrous scars, and cystoid intraretinal fluid collections in the macula.

26 ner retinal layers, ellipsoid zone (EZ), and cystoid macular changes (CMCs).

27 Cystoid macular changes were found in 53% of patients an

28 Dominant cystoid macular dystrophy could be classified into 3 sta

29 Dominant cystoid macular dystrophy is a progressive retinal dystr

30 [4%]), retained cortical fragment (1 [4%]), cystoid macular edema (2 [8%]), and IOL subluxation (3 [

31 complications were uveal effusion (9.3%) and cystoid macular edema (CME) (7.0%).

32 total images were acquired and evaluated for cystoid macular edema (CME) and persistence of inner ret

33 ibizumab-treated CRVO patients with resolved cystoid macular edema (CME) at month 3, those with persi

34 s pigmentosa; 37 (21%) of these patients had cystoid macular edema (CME) by OCT.

35 Published reports of the occurrence of cystoid macular edema (CME) in eyes being treated with l

36 IDs) are effective in decreasing the risk of cystoid macular edema (CME) in high-risk eyes, but must

37 Cystoid macular edema (CME) in retinitis pigmentosa (RP)

38 Current treatments for cystoid macular edema (CME) in retinitis pigmentosa (RP)

39 Cystoid macular edema (CME) is a common problem after ca

40 Cystoid macular edema (CME) occurred in 5 eyes (0.87%):

41 ld, with a vitreous haze score of >/=1.5+ or cystoid macular edema (CME) of >300 mum were enrolled.

42 ) in cataract surgery with specific focus on cystoid macular edema (CME) on the basis of expert opini

43 sual acuity, intraocular pressure (IOP), and cystoid macular edema (CME) were recorded at each visit.

44 al acuity (VA), complications, resolution of cystoid macular edema (CME), and anterior chamber and vi

45 inal hard exudates, retinal detachment (RD), cystoid macular edema (CME), and epiretinal membrane (ER

46 ourse can be complicated by inflammation and cystoid macular edema (CME), and in uveitic patients, in

47 in retinal dystrophy, differentiate it from cystoid macular edema (CME), and review the role of carb

48 ntour, persistent fetal foveal architecture, cystoid macular edema (CME), intraretinal exudates and s

49 ase, vitreous opacities, retinal detachment, cystoid macular edema (CME), macular scarring, macular h

50 uthors retrospectively selected visits where cystoid macular edema (CME), subretinal fluid (SRF), or

51 with visual acuity (VA) in eyes with uveitic cystoid macular edema (CME).

52 ntraocular pressure (IOP) increase (n = 12), cystoid macular edema (CME; n = 3), and nonarteritic ant

53 Study [ETDRS] of 55 letters or better); (2) cystoid macular edema (CMO), foveal thickness, and macul

54 idence interval {CI}, 2.15-4.35], P < .001), cystoid macular edema (HR = 2.87 [95% CI, 1.41-5.82], P

55 1), retinal neovascularization (n = 1), and cystoid macular edema (n = 1).

56 no differences between groups when assessing cystoid macular edema (P = .96), retinal detachment (P =

57 (P = 0.15), retinal detachments (P = 0.76), cystoid macular edema (P = 0.83), or timing of complicat

58 Pseudophakic cystoid macular edema (PCME) is a common cause of visual

59 ification for the prevention of pseudophakic cystoid macular edema (PCME) using a prospective, random

60 Cystoid macular edema after cataract surgery has a tende

61 st 1, 2001 and July 31, 2002 on the topic of cystoid macular edema after cataract surgery.

62 The rate of cystoid macular edema decreased from 22.7% at baseline t

63 ave been shown to be effective in preventing cystoid macular edema following cataract surgery or trea

64 Other complications included cystoid macular edema in 1 eye (2.4%), posterior synechi

65 t underlying pathophysiologic foundation for cystoid macular edema in retinal vascular diseases.

66 Cystoid macular edema in retinal vein occlusion occurred

67 form changes that were hyperautofluorescent, cystoid macular edema in the inner nuclear layer, no lig

68 Pseudophakic cystoid macular edema is an important cause of visual de

69 Pseudophakic cystoid macular edema is common after phacoemulsificatio

70 Usually vision loss from cystoid macular edema is temporary and responds to treat

71 Cystoid macular edema observed on SD OCT in very preterm

72 nd optical coherence tomography (OCT) showed cystoid macular edema on both eyes.

73 edema following cataract surgery or treating cystoid macular edema once it occurs.

74 subclinical susceptibility to postoperative cystoid macular edema or exacerbation of choroidal neova

75 Diagnosis of cystoid macular edema or new-onset macular edema in pati

76 Cystoid macular edema persisted in 9 of 11 eyes affected

77 Cystoid macular edema seems to be a marker for poorer vi

78 ly [P = .001]), whereas an increased risk of cystoid macular edema was not identified for those who r

79 In one eye, development of cystoid macular edema was observed before the outer reti

80 No cystoid macular edema was observed in the control group.

81 Cystoid macular edema was present in 9, 1, 5, 9, and 1 p

82 Cystoid macular edema was seen in 25 of the 46 patients

83 20/13 to 20/40(+2), except in 1 patient with cystoid macular edema whose vision was 20/60(-) and 20/7

84 vascular plexus were analyzed in relation to cystoid macular edema with retention of depth informatio

85 acy (for both postoperative inflammation and cystoid macular edema) without the typically corticoster

86 Twenty-seven eyes had cystoid macular edema, and 10 eyes had diffuse macular e

87 corneal edema, intraocular pressure spikes, cystoid macular edema, and posterior capsule opacificati

88 ch may include pseudocysts, macular schisis, cystoid macular edema, and subretinal fluid.

89 eyes and seven eyes with retinal pathology (cystoid macular edema, central serous retinopathy, vitre

90 multiple processes, including postoperative cystoid macular edema, epiretinal membrane formation, ma

91 Anterior uveitis, cataract, vitritis, cystoid macular edema, epiretinal membrane, and disc ede

92 ewed OCT scans to determine the type of DME, cystoid macular edema, or diffuse macular edema (absence

93 y related to visual acuity, age, presence of cystoid macular edema, or subjects' stress or anxiety le

94 ressure control, worsening of visual acuity, cystoid macular edema, retroprosthetic membrane formatio

95 as assessed by multiadjusted odds of retinal cystoid macular edema, was not increased for patients re

96 Cystoid macular edema, which was present in 40 eyes at b

97 ery-associated retinal complications such as cystoid macular edema.

98 s whether NSAIDS can reduce the incidence of cystoid macular edema.

99 ement of both postoperative inflammation and cystoid macular edema.

100 lar hole, diabetic retinopathy, uveitis, and cystoid macular edema.

101 can lead to retinal disease de novo, such as cystoid macular edema.

102 seudotumor cerebri, thyroid orbitopathy, and cystoid macular edema.

103 eitis-glaucoma-hyphema syndrome, and chronic cystoid macular edema.

104 ases, suboptimal visual results secondary to cystoid macular edema.

105 al anterior synechiae, or known or suspected cystoid macular edema.

106 g anterior chamber reactions, and inhibiting cystoid macular edema.

107 xime as measured by the incidence of POE and cystoid macular edema.

108 xel may cause ocular adverse effects such as cystoid macular edema.

109 n the central macula with or without typical cystoid macular edema.

110 1 day of treatment, and 1 patient developed cystoid macular edema.

111 The aim of this study is to report a case of cystoid macular oedema (CME) associated with Rosai-Dorfm

112 To report the rate of cystoid macular oedema (CMO) as detected by spectral-dom

113 il tamponade (elevated intraocular pressure, cystoid macular oedema (CMO), cataract and posterior cap

114 re still remain risks of retinal detachment, cystoid macular oedema, glare, halos and posterior capsu

115 e first reported case of RDD associated with cystoid macular oedema.

116 level of the retinal pigment epithelium and cystoid or schisis-like maculopathy with typical functio

117 poreflective intraretinal spaces, indicating cystoid or schitic fluid, were seen in ora serrata pearl

118 ures included subretinal fluid (n = 9; 19%), cystoid retinal edema (n = 6; 13%), retinal traction (n

119 SD-OCT showed cystoid space in the macular region of both eyes as well

120 ecovered and the presence of glial cells and cystoid space resolved gradually after surgery.

121 Cystoid spaces accounting for macular splitting were pre

122 ed in relation to structural changes such as cystoid spaces and disorganization of the retinal inner

123 The structural OCT data were segmented for cystoid spaces and integrated into the angiographic data

124 The structural OCT data were segmented for cystoid spaces and integrated into the angiographic data

125 uid (SRF) in 20 of 30 eyes (67%) and retinal cystoid spaces in 11 of 30 eyes (37%).

126 e signs emerged (SRF in 3/6 eyes and retinal cystoid spaces in 5/6 eyes).

127 Intraretinal cystoid spaces were observed in 34 eyes (68%) using FA,

128 The GCL/FNL cystoid spaces were small and seen near the fovea and th

129 d patients by submacular fluid, intraretinal cystoid spaces, and renal disease.

130 ormal thinning volume, intraretinal fluid or cystoid spaces, hyperreflective foci, and RPE layer atro

131 nd by poor baseline BCVA, large intraretinal cystoid spaces, renal disease, and absence of hyperchole

132 ed with RAP showed the highest percentage of cystoid spaces.