ライフサイエンスコーパス: posterior capsule

1 d a significant retardation of growth on the posterior capsule.

2 c fashion in the most peripheral part of the posterior capsule.

3 traocular lens was less prolific than on the posterior capsule.

4 (LECs) proliferation and migration onto the posterior capsule.

5 opulations in specific tissue regions of the posterior capsule.

6 IOL and improves contact with the underlying posterior capsule.

7 s, the anterior capsule tear extended to the posterior capsule.

8 r cataract surgery in the setting of an open posterior capsule.

9 nder the iris and through the zonules to the posterior capsule.

10 le management was based on the status of the posterior capsule.

11 lorhexis, preventing radial extension to the posterior capsule.

12 e on their path from the ciliary body to the posterior capsule.

13 and ultrastructure, on both the anterior and posterior capsules.

14 islocation occur only in eyes with an intact posterior capsule?

15 ultrasonic phacoemulsification safer to the posterior capsule and less likely to create wound burn.

16 s implantation, as well as management of the posterior capsule and long-term refractive sequelae.

17 OL designs separate the anterior capsule and posterior capsules and further reduce PCO incidence.

18 this model proliferated, migrated across the posterior capsule, and expressed EMT markers, alpha-smoo

19 nd to the slit lamp examination of the lens, posterior capsule, anterior cortical vitreous, and zonul

20 oint was the time until full coverage of the posterior capsule by cells.

21 Digital retroillumination images of the posterior capsule can be obtained reliably, and automate

22 Posterior capsule cells of both preparations also had si

23 vitrectorhexis method for both anterior and posterior capsules combined with anterior vitrectomy in

24 d doses in complicated cataract surgery with posterior capsule compromise.

25 re leading to glaucoma; cataracts, including posterior capsule defects requiring cataract surgery; re

26 eyes undergoing cataract surgery with intact posterior capsules, eyes undergoing manual posterior cap

27 erms of days until full cell coverage of the posterior capsule in comparison to the AcrySof (p > 0.99

28 dherin junctions, and did not migrate to the posterior capsule, increase proliferation, or express EM

29 but serious complication, particularly when posterior capsule integrity is compromised and the admin

30 ular lens (IOL) with compromised anterior or posterior capsule is a more challenging task.

31 LEC removal from both the anterior and posterior capsule is part of a continuous, incremental i

32 Posterior capsule management was based on the status of

33 The most common was a rent in the posterior capsule, occurring in 40 (13.3%) eyes.

34 G laser posterior capsulotomy orifice on the posterior capsule of each eye.

35 y (0.9%), cataracts (3.6%), intraocular lens posterior capsule opacification (1.8%) and a posterior c

36 Postoperative complications included posterior capsule opacification (50.9%), posterior synec

37 Evaluation of Posterior Capsule Opacification (EPCO) image analysis so

38 d with retroillumination using evaluation of posterior capsule opacification (EPCO) software.

39 cantly higher rates of hypotony (p = 0.043), posterior capsule opacification (p = 0.047), and surgica

40 I(2) = 0%; n = 2 studies, 161 participants), posterior capsule opacification (P = 0.46; I(2) = 0%; n

41 le is known about the long-term incidence of posterior capsule opacification (PCO) after cataract sur

42 Posterior capsule opacification (PCO) after cataract sur

43 To objectively assess the long-term posterior capsule opacification (PCO) and neodymium-dope

44 Posterior capsule opacification (PCO) arises because of

45 provements in intraocular lens (IOL) design, posterior capsule opacification (PCO) arising from lens

46 The fibrotic lens disorder posterior capsule opacification (PCO) develops in millio

47 ic IOLs' susceptibility to calcification and posterior capsule opacification (PCO) formation.

48 This resilient growth gives rise to posterior capsule opacification (PCO) in a significant p

49 antification of After-Cataract [AQUA II]) of posterior capsule opacification (PCO) in high-resolution

50 Posterior capsule opacification (PCO) is a complication

51 Posterior capsule opacification (PCO) is the most common

52 Posterior capsule opacification (PCO) is the most common

53 ct surgery is common, routine and effective, posterior capsule opacification (PCO) occurs in 30-50% o

54 tients gradually develop the complication of posterior capsule opacification (PCO) or secondary catar

55 dy were to determine the 5-year incidence of posterior capsule opacification (PCO) requiring Nd:YAG l

56 utive pseudophakic patients with symptomatic posterior capsule opacification (PCO) underwent Nd:YAG l

57 DVA), subjective refraction, IOL centration, posterior capsule opacification (PCO), and investigators

58 oped yttrium aluminum garnet capsulotomy for posterior capsule opacification (PCO), and visual acuity

59 ts due to a wound-healing response, known as posterior capsule opacification (PCO), following catarac

60 We describe a patient with massive posterior capsule opacification (PCO), i.e. Elschnig's P

61 ptic edge using an in vitro culture model of posterior capsule opacification (PCO).

62 s lenticular migration, thus contributing to posterior capsule opacification (PCO).

63 anti-TGF-beta2 antibody in a rodent model of posterior capsule opacification (PCO).

64 srupting complication of cataract surgery is posterior capsule opacification (PCO; secondary cataract

65 This review addresses 1) inhibition of posterior capsule opacification (surgical techniques, in

66 tion (between piggyback intraocular lenses), posterior capsule opacification and lens epithelial cell

67 how resistant an intraocular lens will be to posterior capsule opacification as a consequence of rege

68 ept that sharp optic edges markedly decrease posterior capsule opacification as compared with round-e

69 d with lower rates of clinically significant posterior capsule opacification compared to treatment wi

70 Posterior capsule opacification developed in 11 eyes (57

71 Posterior capsule opacification developed in 14 eyes (34

72 rban residency and were found in 60.4%, with posterior capsule opacification in 29.6% and posterior c

73 ecial interest are techniques for inhibiting posterior capsule opacification in pediatric patients by

74 d strength, which may decrease resistance to posterior capsule opacification in the face of a regener

75 Posterior capsule opacification is a frequent postoperat

76 Posterior capsule opacification is also potentially solv

77 Posterior capsule opacification is an ongoing cellular r

78 Posterior capsule opacification is the most frequent lat

79 Posterior capsule opacification occurred in 66 eyes (82.

80 ll changes in the percentage area covered by posterior capsule opacification over time.

81 ion, allowing for a more rapid assessment of posterior capsule opacification resistance.

82 med and analyzed for PCO using Evaluation of Posterior Capsule Opacification software.

83 active lens exchange suggest higher rates of posterior capsule opacification than with standard catar

84 In 25% of pseudophakic cases, posterior capsule opacification was noted.

85 th and angle width in pseudophakic eyes with posterior capsule opacification were measured with anter

86 the gold standard for the treatment of PCO (Posterior Capsule Opacification).

87 re instrumental in reducing the incidence of posterior capsule opacification, (PCO, secondary catarac

88 ally valuable in prevention and treatment of posterior capsule opacification, a dreaded complication

89 stance visual acuity (CDVA), IOL centration, posterior capsule opacification, glaucoma, and retinal c

90 the eye this can cause blindness because of posterior capsule opacification, proliferative vitroreti

91 ge design appreciably improves resistance to posterior capsule opacification, significant factors rem

92 and could be important in the development of posterior capsule opacification.

93 practical for use in longitudinal studies of posterior capsule opacification.

94 mmunotoxin may be effective in prevention of posterior capsule opacification.

95 e, and effective measure in the treatment of posterior capsule opacification.

96 , cystoid macular oedema (CMO), cataract and posterior capsule opacification.

97 nt, cystoid macular oedema, glare, halos and posterior capsule opacification.

98 an effective capsular bend as a deterrent to posterior capsule opacification.

99 ng mechanism for the aberrant cell growth in posterior capsule opacification.

100 pressure spikes, cystoid macular edema, and posterior capsule opacification.

101 and pharmacologic methods); 2) treatment of posterior capsule opacification; and 3) characteristics

102 sterior capsulorhexis is required to inhibit posterior-capsule opacification in pediatric patients; w

103 Posterior-capsule opacification, by far the most common

104 d Pande et al. for precise quantification of posterior-capsule opacification.

105 of posterior capsular opacification (EPCO), posterior capsule opacity (POCO) and AQUA I methods were

106 In the IOL dislocation group, posterior capsule opening presented in 57% of eyes (8/14

107 ases included a dislocated IOL and an absent posterior capsule or subluxated cataract.

108 At a later time, the attenuated posterior capsule overlying the plaque ruptured and the

109 e between the intraocular lens (IOL) and the posterior capsule (PC), i.e., the IOL/PC distance, on th

110 rior limbal vitrectomy was carried out after posterior capsule plaque peeling.

111 Posterior capsule plaques are not unusual.

112 Posterior capsule polishing is gentle if the only vacuum

113 We observed higher rates of posterior capsule rupture (2.3% vs 1.6%; P < .001) and d

114 .2%), anterior capsule tear (9 eyes, 0.81%), posterior capsule rupture (3 eyes, 0.27%), suction loss

115 ding increased intraocular pressure (187.8), posterior capsule rupture (80.1), vitreous hemorrhage (7

116 I(2) = 0%; n = 2 studies, 161 participants), posterior capsule rupture (P = 0.41; I(2) = 0%; n = 5 st

117 during cataract surgery is the occurrence of posterior capsule rupture (PCR) and vitreous loss.

118 Records of patients with posterior capsule rupture (PCR), vitreous complications,

119 might be a useful intervention in eyes with posterior capsule rupture and vitreous loss during catar

120 Posterior capsule rupture and vitreous loss were noted d

121 were male sex, axial myopia, and duration of posterior capsule rupture event from the cataract surger

122 s (5%), with the most common being unplanned posterior capsule rupture in 14 eyes, 10 of which had an

123 posterior capsule opacification in 29.6% and posterior capsule rupture in 16.3%.

124 ntration/dislocation of IOLs and spontaneous posterior capsule rupture in a clear and relatively inta

125 Primary posterior capsule rupture occurred in 1 eye.

126 ual extraction in 5 cases (2%); a concurrent posterior capsule rupture occurred in 58 eyes (24%) with

127 Posterior capsule rupture rates (an important complicati

128 ision burn, is probably less likely to cause posterior capsule rupture than ultrasonic phacoemulsific

129 ty and outcomes (including visual acuity and posterior capsule rupture) of cataract surgical procedur

130 .50-0.57; P < 0.001), whereas intraoperative posterior capsule rupture, combined surgery, and gender

131 ract surgical adverse events were evaluated: posterior capsule rupture, dropped lens fragments, retin

132 Four serious complications were evaluated: posterior capsule rupture, dropped lens fragments, retin

133 yes of diabetic subjects had higher risks of posterior capsule rupture.

134 Eight eyes (44%) had intraoperative posterior capsule rupture.

135 residual cells on both the anterior and the posterior capsule showed vigorous growth.

136 The use of iris retractors may facilitate posterior capsule staining by allowing the posterior flo

137 All eyes had resolution of posterior capsule staining by postoperative day 8.

138 derstand the mechanisms and risk factors for posterior capsule staining with trypan blue and techniqu

139 Inadvertent posterior capsule staining with trypan blue can occur in

140 Five cases of posterior capsule staining with trypan blue were identif

141 consider techniques to minimize the risk of posterior capsule staining, particularly in cases involv

142 Excess vitreous was removed to expose the posterior capsule surface, and the eye assembly was plac

143 during phacoemulsification complicated with posterior capsule tear (PCT) may be associated with seve

144 Posterior capsule tear was the most common intraoperativ

145 sule tears occurred in 4% and 0.31% of eyes, posterior capsule tears in 3.5% and 0.31% of eyes, and p

146 There were 2 posterior capsule tears in the PCS arm and none in the F

147 Posterior capsule tears requiring implantation of IOL in

148 Central posterior capsule thickness was 6.3 +/- 2.2 (human), 5.9

149 Standard IOLs allow the anterior and posterior capsules to become physically connected.

150 Surgery in 4 patients was complicated-the posterior capsule was absent or torn-and anterior vitrec

151 e of growth was age-dependent, such that the posterior capsule was completely confluent after 8.0 +/-

152 Cell coverage and wrinkle formation on the posterior capsule were also assessed using human capsula

153 Retroillumination images of the posterior capsule were obtained by using a digital camer

154 gration, sutural defects and thinning of the posterior capsule which often led to rupture.