ライフサイエンスコーパス: after cataract

1 second major cause of blindness in the world after cataract.

2 s the second cause of blindness among adults after cataract.

3 alysis software (Automated Quantification of After-Cataract) 3 years after surgery.

4 e third leading cause of blindness worldwide after cataracts and glaucoma.

5 sessment system (Automated Quantification of After-Cataract [AQUA II]) of posterior capsule opacifica

6 of death after RAO diagnosis was higher than after cataract diagnosis at 2 weeks (0.14% vs 0.06%; rel

7 The most common clinical settings were after cataract extraction (18/36, 50%) and glaucoma surg

8 Endothelial cell survival after cataract extraction and lens implantation are stil

9 Endothelial cell survival after cataract extraction and lens implantation is still

10 mily members (45.5%) had retinal detachments after cataract extraction and vitrectomy.

11 ma surgery, the survival of filtration blebs after cataract extraction in eyes that had previous trab

12 Retinal detachments after cataract extraction in the first 2 years of life w

13 athophysiological mechanisms of IOP lowering after cataract extraction may help us better predict whi

14 After cataract extraction, IOP decreased in controls and

15 After cataract extraction, only a few LIG patients requi

16 ting significant and sustained IOP reduction after cataract extraction, particularly in closed-angle

17 k of developing central-involved ME 16 weeks after cataract extraction.

18 toid macular edema (CME) is a common problem after cataract extraction.

19 aged 0.206 +/- 0.13 before and 0.18 +/- 0.12 after cataract extraction.

20 P optical density (MPOD) measured before and after cataract extraction.

21 d Abiotrophia defectiva approximately a week after cataract extraction.

22 auses visual disturbances, and occurs mainly after cataract extraction.

23 icant improvement in vision-related outcomes after cataract extraction.

24 of developing central-involved macular edema after cataract extraction.

25 who developed secondary pigmentary glaucoma after cataract operations.

26 alyses were used to determine the rate of EK after cataract or complex or other anterior segment surg

27 le to RNFL thickness measurements before and after cataract or refractive surgery.

28 Image repeatability significantly improves after cataract phacoemulsification.

29 al risk factor for glaucoma, often decreases after cataract removal by phacoemulsification ultrasound

30 of glaucoma plus glaucoma suspect diagnosis after cataract removal rose from 12% (95% CI, 7%-20%) at

31 dy eyes combined (n = 114), risk of glaucoma after cataract removal rose from 9% (95% CI, 5%-16%) at

32 uid in the centre subfield, be pseudophakic (after cataract removal), and have a best-corrected visua

33 ries including intraocular lens implantation after cataract removal, it has never been described in a

34 reased light intensity stimulation of retina after cataract removal.

35 h significant worsening compared with vision after cataract surgery (0.18 [0.10-0.48], 20/30) (P = 0.

36 isolated ocular anomalies (14.7%), glaucoma after cataract surgery (6.7%), and glaucoma with nonacqu

37 The most common clinical settings were after cataract surgery (9/16, 56%), glaucoma surgery (4/

38 bility of glaucoma free survival at 10 years after cataract surgery (cases 0.53 vs controls 0.8; log

39 n the IOL group had at least 1 adverse event after cataract surgery (contact lens, 56%; IOL, 81%; P =

40 isk of subsequent RLF removal within 28 days after cataract surgery (hazard ratio [HR], 2.26; 95% con

41 olone, and panretinal photocoagulation (PRP) after cataract surgery (instead of before) have been exa

42 luation using spectral-domain OCT before and after cataract surgery (monthly for 3 months).

43 er intravitreal injection (n = 16; 25%), and after cataract surgery (n = 13; 21%).

44 ncluded bleb association (n = 8), occurrence after cataract surgery (n = 4), and occurrence after pen

45 ring' group will perform in-home assessments after cataract surgery (remote web-based eye exams and d

46 DR progression was significantly higher after cataract surgery (RR, 1.46; 95% CI: 1.28-1.66; P <

47 Mean visual acuities improved significantly after cataract surgery across varying degrees of AMD sev

48 mes of the slow component were only 26 years after cataract surgery and 21 years after penetrating ke

49 %) developed glaucoma a median of 4.3 months after cataract surgery and an additional 16 eyes (25.8%)

50 lated using the BTAL-SOS formula in 523 eyes after cataract surgery and compared to the potential res

51 examine the state of the vitreous before and after cataract surgery and find that patients are more l

52 aracterized by an unexpected onset of iritis after cataract surgery and high rates of steroid depende

53 esenting vision in eyes with endophthalmitis after cataract surgery and intravitreal injections.

54 ns (MFIOL) allows for spectacle independence after cataract surgery and is thus a seemingly attractiv

55 ncrease in Demodex colonization of eyelashes after cataract surgery and postoperative topical steroid

56 l subfield macular thickness) within 90 days after cataract surgery and the patients (%) with a best-

57 amples before cataract surgery and in 32.26% after cataract surgery and topical postoperative steroid

58 The patient reported excellent visual acuity after cataract surgery and toric IOL implantation.

59 aused by Curvularia is a rare condition seen after cataract surgery and trauma.

60 nt as case reports of "refractive surprises" after cataract surgery appear in the literature more fre

61 erative endophthalmitis in the United States after cataract surgery are consistent with prior reports

62 Visual acuity outcomes after cataract surgery are generally good.

63 hanges at the postoperative week 1 timepoint after cataract surgery are rare in asymptomatic patients

64 complications, the majority of clinic visits after cataract surgery are uneventful.

65 e in the raw number of endophthalmitis cases after cataract surgery as opposed to an increase in the

66 By using the actual refraction after cataract surgery as target refraction, predicted I

67 The refractive outcomes after cataract surgery at this academic teaching institu

68 th presentation ranging from weeks to months after cataract surgery but most of them were treated wit

69 This study suggests that DMD after cataract surgery can be treated effectively and go

70 Corneal decompensation after cataract surgery can occur in patients with Fuchs'

71 tion and highly predictable refractive error after cataract surgery combined with Descemet stripping

72 cations and have more modest visual outcomes after cataract surgery compared to eyes without glaucoma

73 temic complications occurred less frequently after cataract surgery compared with other elective, low

74 Pseudophakic RD occurs earlier after cataract surgery complicated by PCR.

75 The incidence of POE after cataract surgery decreased over the course of the

76 Favorable outcome after cataract surgery depends on proper control of the

77 Investigating remote follow-up after cataract surgery fits the current trends of digiti

78 The risk of late AMD after cataract surgery from the logistic regression mode

79 nts with Nd:YAG-caps performed within 1 year after cataract surgery had a higher risk of AEs than tho

80 Cystoid macular edema after cataract surgery has a tendency to resolve spontan

81 The practice of remote follow-up after cataract surgery has not yet been evaluated.

82 r eye drops prescribed for postoperative use after cataract surgery in 2016 was approximately $170 mi

83 al case of recurrent ligneous conjunctivitis after cataract surgery in a 67-year-old male patient.

84 ionnaire (VFQ) scores significantly improved after cataract surgery in both groups (P < .0001), but t

85 Videokeratography should be performed after cataract surgery in cases in which best-corrected

86 k for RD is estimated for the first 10 years after cataract surgery in children with no known ocular

87 glaucoma-related adverse events were common after cataract surgery in children; age less than 3 mont

88 Poor follow-up after cataract surgery in developing countries makes ass

89 The risk for retinal redetachment after cataract surgery in eyes that have previously unde

90 The incidence of endophthalmitis after cataract surgery in our center was 0.023%, compara

91 claims database to estimate the risk of CME after cataract surgery in patients with and without RP.

92 versus vehicle, based on clinical outcomes, after cataract surgery in patients with diabetes.

93 he integrated analysis showing improved BCVA after cataract surgery in patients with diabetic retinop

94 er measured by IVCM predicts the need for EK after cataract surgery in patients with FECD.

95 he ocular surface and the corneal epithelium after cataract surgery in patients with type 2 diabetes.

96 nce of posterior capsule opacification (PCO) after cataract surgery in patients with uveitis.

97 ce with intraocular lens power determination after cataract surgery in post-keratorefractive patients

98 ies reporting changes in UDVA, UIVA and UNVA after cataract surgery in presbyopic patients.

99 that experienced lower odds of hip fracture after cataract surgery included patients with severe cat

100 Persistent dysphotopsia after cataract surgery is a significant cause for patien

101 Identifying risk factors for complications after cataract surgery is essential to guide preoperativ

102 Posterior capsule opacification (PCO) after cataract surgery is influenced by intraocular lens

103 Although the incidence of CME after cataract surgery is low and most eyes achieve a vi

104 lines with imaging modalities is appropriate after cataract surgery is performed in glaucoma patients

105 Intraocular lens (IOL) exchange after cataract surgery is unusual but may be associated

106 ion of residual lens epithelial cells (LECs) after cataract surgery leads to the development of poste

107 Eyes with endophthalmitis after cataract surgery managed without microbiologic cul

108 equent in South Asian patients, and glaucoma after cataract surgery more frequent in white patients.

109 increases in postoperative retinal thickness after cataract surgery on OCT, though those eyes that do

110 ially devastating condition that can develop after cataract surgery or intraocular injection.

111 visual discomfort reported by many patients after cataract surgery or with monovision and could guid

112 rence in the incidence of secondary glaucoma after cataract surgery performed in infants with CRS com

113 mal pharmacologic treatment for inflammation after cataract surgery remains controversial.

114 opographic evaluation of induced astigmatism after cataract surgery suggests that in general, smaller

115 An initial elevation in daily mean (SD) IOP after cataract surgery to 21.2 (8.5) mmHg was noted that

116 of change in a myopic direction from 1 month after cataract surgery to age 1.5 years was 0.35 diopter

117 e identified endophthalmitis cases occurring after cataract surgery using Medicare billing claims.

118 n the IRIS Registry the endophthalmitis rate after cataract surgery was 0.08% among 511 182 individua

119 The overall rate of endophthalmitis after cataract surgery was 0.14% in 216 703 individuals

120 y, adjusted OR of hip fracture within 1 year after cataract surgery was 0.84 (95% CI, 0.81-0.87) with

121 rd ratio (HR) for retinal vascular occlusion after cataract surgery was 1.23 (95% confidence interval

122 ll 90-day postoperative endophthalmitis rate after cataract surgery was 1.36 per 1000 cataract surger

123 In Taiwan, the incidence rate of AMD after cataract surgery was 11.59 per 1000 person-years.

124 r cumulative incidence of Nd:YAG capsulotomy after cataract surgery was 13.2% (95% confidence interva

125 he overall incidence of retinal redetachment after cataract surgery was 2.5% (19/763 eyes).

126 e of retinal detachment diagnosis and repair after cataract surgery was 3.8% (95% CI, 3.1%-4.5%) and

127 mean +/- standard deviation follow-up period after cataract surgery was 34.8 +/- 24.6 months, with a

128 The overall incidence of RT and RD diagnosis after cataract surgery was 7.3% (52/713; 2.9% and 4.3%,

129 gery was 2.0 months and the median follow-up after cataract surgery was 7.9 years (range, 3.2-23.5 ye

130 e surgery anatomic success for the RD repair after cataract surgery was achieved in 17 eyes (89.5%) a

131 ffective if the incidence of endophthalmitis after cataract surgery was greater than 5.5% or if the p

132 riable analysis, the risk of endophthalmitis after cataract surgery was increased for cases performed

133 riable analysis, the risk of endophthalmitis after cataract surgery was increased for cases performed

134 The rate of endophthalmitis within 3 months after cataract surgery was similar between the 2 study g

135 developed cataract, but their visual benefit after cataract surgery was similar to that in pseudophak

136 d median best corrected visual acuity 1 year after cataract surgery were 4.8 lines and 20/25, respect

137 Diabetes and an early Nd:YAG-caps after cataract surgery were among the main drivers for A

138 macular view and absence of endophthalmitis after cataract surgery were associated with an increased

139 o received a diagnosis of CME within 90 days after cataract surgery were classified as cases, and the

140 d central macular thickness (CMT) before and after cataract surgery were determined.

141 o intraocular antibiotic levels and outcomes after cataract surgery were evaluated.

142 ive endophthalmitis occurring within 30 days after cataract surgery were identified using diagnosis c

143 Eyes with at least 2 years of follow-up after cataract surgery were included in the analysis.

144 Nd:YAG-caps performed between 1 and 2 years after cataract surgery were more at risk of OHT than pat

145 ents who had developed acute endophthalmitis after cataract surgery were randomly assigned to undergo

146 IOP and medications up to 12 months after cataract surgery were similar compared to preopera

147 cceptable strategy to manage endophthalmitis after cataract surgery when prompt access to a microbiol

148 to review key articles on quality of visual after cataract surgery with intraocular lens (IOL) impla

149 To report the myopic shift at 5 years of age after cataract surgery with intraocular lens (IOL) impla

150 ion, accommodation, and contrast sensitivity after cataract surgery with no influence on the postoper

151 improvements in subjective quality of vision after cataract surgery with or without ocular comorbidit

152 visual outcomes and complications during and after cataract surgery with or without prophylactic scle

153 n of a trifocal diffractive intraocular lens after cataract surgery with phacoemulsification.

154 kers of intra-ocular pressure (IOP) decrease after cataract surgery with trabecular washout in pseudo

155 with minimal cataract at final follow-up or after cataract surgery) (P < 0.001).

156 w-up period of 6.1 years (range, 1-10 years) after cataract surgery, 12,533 and 1655 patients develop

157 One and 7 days after cataract surgery, 12.9 and 4.2% of the eyes had IO

158 In 33 547 eyes with postoperative VA after cataract surgery, 18.3% had 1-month-postoperative

159 After cataract surgery, 35 (39%) of 89 eyes underwent EK

160 One year after cataract surgery, 75.7% of the POAG eyes maintaine

161 ) for RT, showing no significant change from after cataract surgery, and 0.18 logMAR (Snellen equival

162 nts who wish to remain spectacle independent after cataract surgery, and this number includes some of

163 Despite a modest worsening in CRT after cataract surgery, BCVA was improved in both treatm

164 At the first study visit after cataract surgery, BCVA was improved significantly

165 dence of AION is increased in the first year after cataract surgery, but not in the early (i.e., 2 mo

166 nt changes at the postoperative week 1 visit after cataract surgery, defined as an unanticipated chan

167 After cataract surgery, DII demonstrated a higher rate o

168 hanges may follow initial endothelial damage after cataract surgery, may be caused by the upregulatio

169 11 patients were treated for endophthalmitis after cataract surgery, of which 57 (51%) were culture-p

170 After cataract surgery, the lack of melanoma was confirm

171 One year after cataract surgery, the rate of diagnosed RT and RD

172 f visual recovery in the first several weeks after cataract surgery, there is no evidence that this p

173 refractive changes in corneal edema patients after cataract surgery, using visual acuity (VA) and con

174 Nineteen years after cataract surgery, when the IOL-CB complex became d

175 tion often result in a "refractive surprise" after cataract surgery, which may require subsequent sur

176 ype 2 diabetes present more dry eye symptoms after cataract surgery, with a greater effect in those w

177 e good potential for positive visual outcome after cataract surgery, with a low rate of intraoperativ

178 he total, 12 eyes of 9 children developed RD after cataract surgery, with a median time of 70 months.

179 A total of 11 424 patients experienced RD after cataract surgery, with an estimated risk of 0.99%

180 coma or become glaucoma suspects by 10 years after cataract surgery.

181 ficantly to 0.85 +/- 0.18 (P < .05) 3 months after cataract surgery.

182 re likely to achieve sustained IOP reduction after cataract surgery.

183 d as glaucoma suspects a median of 8.0 years after cataract surgery.

184 baseline and at week 1, month 1, and month 3 after cataract surgery.

185 mained significantly elevated up to 10 years after cataract surgery.

186 ne, 1 week, 1 month, 6 months, and 12 months after cataract surgery.

187 elevated relative risk of PRD up to 10 years after cataract surgery.

188 t-operative refractive errors (RE) one month after cataract surgery.

189 DVA and BDVA as well as similar rates of PCO after cataract surgery.

190 laser-assisted in situ keratomileusis flaps after cataract surgery.

191 nd recent developments in postoperative care after cataract surgery.

192 able to successfully restore visual function after cataract surgery.

193 to outline an optimal postoperative regimen after cataract surgery.

194 mber 2009 for culture-proven endophthalmitis after cataract surgery.

195 ised to optimize visual outcome for patients after cataract surgery.

196 ve in treating induced intraocular infection after cataract surgery.

197 PCME) is a common cause of visual impairment after cataract surgery.

198 to varying degrees of endothelial cell loss after cataract surgery.

199 rface contrast enhancement in human subjects after cataract surgery.

200 neal surface and wound interface immediately after cataract surgery.

201 lder adults have with updated spectacles and after cataract surgery.

202 ecome a useful diagnostic tool to assess CME after cataract surgery.

203 isual outcomes and independence from glasses after cataract surgery.

204 f the remaining lens epithelial cells (LECs) after cataract surgery.

205 rgeon case volume and visual acuity outcomes after cataract surgery.

206 , 2002 on the topic of cystoid macular edema after cataract surgery.

207 ge population of viable cells for many years after cataract surgery.

208 tibiotic prophylaxis against endophthalmitis after cataract surgery.

209 ould be developed to assess potential vision after cataract surgery.

210 c cell death caused by damage during or soon after cataract surgery.

211 ts with chronic postoperative eye discomfort after cataract surgery.

212 lternative to topical corticosteroid therapy after cataract surgery.

213 removal and follow-up of less than 6 months after cataract surgery.

214 commentary on the management of inflammation after cataract surgery.

215 ative complications or worse visual outcomes after cataract surgery.

216 matched 1:2 with eyes that did not redetach after cataract surgery.

217 eded to fully understand the incidence of DR after cataract surgery.

218 is a key determinant of refractive outcomes after cataract surgery.

219 asis in the appropriate subgroup of patients after cataract surgery.

220 h 79 (0.6%) eyes developed RTs within 1 year after cataract surgery.

221 CVA) and best-corrected visual acuity (BCVA) after cataract surgery.

222 ophylactic 360 degrees barrage laser 4 weeks after cataract surgery.

223 to achieve more accurate pseudoaccommodation after cataract surgery.

224 mplications were at an increased risk of RTs after cataract surgery.

225 Peripheral image quality is degraded in eyes after cataract surgery.

226 ual acuity and decrease spectacle dependence after cataract surgery.

227 at improving distance and near visual acuity after cataract surgery.

228 dard versus soft topical steroid application after cataract surgery.

229 condary iris cysts are uncommon complication after cataract surgery.

230 convenience for anti-inflammatory treatment after cataract surgery.

231 e of retinal detachment diagnosis and repair after cataract surgery.

232 ility of GFCS diagnosis and glaucoma surgery after cataract surgery.

233 ve inflammation is the mainstay of treatment after cataract surgery.

234 stratify and mitigate the risk of IOP spike after cataract surgery.

235 ures were cataract surgery and visual acuity after cataract surgery.

236 more likely to have significant visual gains after cataract surgery.

237 20/30) for RD, a significant worsening from after cataract surgery.

238 The minimum follow-up was 1 year after cataract surgery.

239 dications and risk factors for, IOL exchange after cataract surgery.

240 s on (cost)effectiveness of remote follow-up after cataract surgery.

241 ecting binocular vision anomalies before and after cataract surgery.

242 ihood of acute postoperative endophthalmitis after cataract surgery.

243 cations were evaluated before and for 1 year after cataract surgery.

244 ten expect to achieve spectacle independance after cataract surgery.

245 The overall risk of RD was 5.5% at 10 years after cataract surgery.

246 cidence of postoperative macular edema (PME) after cataract surgery.

247 gnificant complication noted during or early after cataract surgery.

248 nts (0.08%) developed POE during the 6 weeks after cataract surgery.

249 etained lens fragments (RLFs) within 28 days after cataract surgery.

250 le glaucoma (POAG) diagnosis within 365 days after cataract surgery.

251 ent vision loss from CME at 3 months or more after cataract surgery.

252 Finally, his vision improved to 6/6 after cataract surgery.

253 the IOL and preventing the formation of PCO after cataract surgery.

254 is is a rare but sight-threatening infection after cataract surgery.

255 model was used to analyze risk factors of RD after cataract surgery.

256 ed +/- 1.0 D of target refraction by 90 days after cataract surgery.

257 losin have a higher risk of wound dehiscence after cataract surgery.

258 nding of positive and negative dysphotopsias after cataract surgery.

259 , hemorrhagic retinal infarction can develop after cataract surgery.

260 othetical cohort between 6 months and 1 year after cataract surgery.

261 s its predictive value for DED symptom onset after cataract surgery.

262 , nonrefractive subjective visual complaints after cataract surgery.

263 al issues that may arise before, during, and after cataract surgery.

264 patient selection that maximize satisfaction after cataract surgery.

265 s achieved within 1.0 D of target refraction after cataract surgery.

266 ve in controlling postoperative inflammation after cataract surgery.

267 The study defined 2 groups after cataract surgery: acute-onset endophthalmitis (</=

268 wed no increased risk of developing late AMD after cataract surgery: hazard ratio, 0.96; 95% confiden

269 an increase in CMMT more than 35 mum 1 month after cataract surgery; 5 of these 8 patients (26%) deve