ライフサイエンスコーパス: right eye

1 eral morning glory optic disc anomaly in the right eye.

2 ng and an air tamponade was performed in the right eye.

3 s matched the labeled proline columns of the right eye.

4 was 20/200 in the left eye, and 20/20 in the right eye.

5 cted with 6-prism diopters base-out prism in right eye.

6 diagnosed with a primary Mooren ulcer in his right eye.

7 nd 52.5% of procedures were performed on the right eye.

8 ew blood vessels and an orbital bruit of the right eye.

9 le host endothelial cell repopulation in the right eye.

10 ning vision and choroidal detachments of the right eye.

11 pithelium (RPE)-choriocapillary layer in the right eye.

12 ye and a long CS was paired with a US to the right eye.

13 the long CS produced long-latency CRs in the right eye.

14 old man presented with blurred vision in his right eye.

15 jections of carrier medium plus DNase to the right eye.

16 left eye compared with when they used their right eye.

17 imaging to obtain macular cube scans of the right eye.

18 Subjects slept with a patch over the right eye.

19 from a small limbal biopsy specimen from the right eye.

20 and a tube shunt was similarly placed in the right eye.

21 c refractive error of </=6.0 diopters in the right eye.

22 ith unilateral group C retinoblastoma in her right eye.

23 mplained of sudden blurring of vision in the right eye.

24 ft eye whereas one patient had ptosis in the right eye.

25 revealed extensive ciliary body cysts in the right eye.

26 ted with a congenital corneal opacity of the right eye.

27 ef complaint of headache and pain behind his right eye.

28 grees clockwise with respect to those of the right eye.

29 her postoperative VA remained 20/200 in the right eye.

30 traocular pressure (IOP) was observed in the right eye.

31 -old man presented for blurred vision in his right eye.

32 he diagnosis of bilateral RP with CME in the right eye.

33 from her left eye, but none was found in the right eye.

34 of intravitreal melphalan or vehicle to the right eye.

35 eft eyes and 100.8 mu (SD = 35.4 mu) for the right eyes.

36 that receives equal inputs from the left and right eyes.

37 stromal neovascularization in the patients' right eyes.

38 exy was performed more often in males and in right eyes.

39 nts (64 %) were men, and 40 (59 %) eyes were right eyes.

40 The ICC for TBUT was slightly lower (right eye 0.77, 95% CI 0.64-0.89; left eye 0.81, 95% CI

41 Corneal staining (right eye 0.86, 95% CI 0.76-0.93, left eye 0.90, 95% CI

42 95% CI 0.81-0.95) and conjunctival staining (right eye 0.87, 95% CI 0.80-0.93, left eye 0.85, 95% CI

43 e who presented with diminution of vision in right eye 17 days after uneventful cataract surgery was

44 development and progression risk, 53% of the right eyes (26 of 49) and 46% of the left eyes (22 of 48

45 olic OPP of 55 mm Hg or less, and 63% of the right eyes (31 of 49) and 65% of the left eyes (31 of 48

46 ystolic OPP of 101 mm Hg or less, 71% of the right eyes (35 of 49) and 73% of the left eyes (35 of 48

47 with a 0.5 mm Hg reduction of the IOP in the right eye (95% CI: -0.8, -0.1, P = .005) and a 0.6 mm Hg

48 ar staining score had an ICC of 0.91 for the right eye (95% confidence interval [CI] 0.85-0.96) and 0

49 ent an uneventful cataract extraction of the right eye a week prior to the appearance of symptoms (pa

50 : Very low-contrast stimuli to the left- and right-eye add linearly to form the predicted cyclopean i

51 but reported irritation and redness in their right eyes after the operation.

52 between the images derived from our left and right eyes, also termed disparities.

53 , 0.0 to 0.3 [Snellen 20/20 to 20/40] in the right eye and -0.1 to 0.3 [Snellen 20/16 to 20/40] in th

54 ed bilaterally in 1 patient (-0.49 mm in the right eye and -0.52 mm in the left eye, under pilocarpin

55 0.076 (6/6 or 20/20 +/- 3.8 letters) in the right eye and 0.008 +/- 0.059 (6/6 or 20/20 +/- 2.95 let

56 n equivalent, 20/71) vs. 0.45 (20/56) in the right eye and 0.38 (20/48) vs. 0.50 (20/63) in the left

57 for the age-matched controls (median = 0.54 right eye and 0.53 left eye; P < 0.05).

58 e predicted produced an R(2) of 0.68 for the right eye and 0.63 for the left.

59 idation the model had an R(2) of 0.79 in the right eye and 0.77 in the left at 5 years.

60 revealed a cup-to-disc ratio of 0.5 for the right eye and 0.8 for the left eye, arteriolar constrict

61 a best visual corrected acuity of 0.7 in his right eye and 0.8 in his left eye.

62 corded for 3780 eyes (1990 treatments in the right eye and 1790 in the left eye).

63 est corrected visual acuity was 20/50 in the right eye and 20/20 in the left eye.

64 Visual acuity was 20/20 in her right eye and 20/30 in her left eye.

65 presentation, visual acuity was 20/20 in the right eye and 20/80 in the left eye.

66 .0% (47/276) of asymptomatic eyes (23 in the right eye and 24 in the left).

67 a in response to a II2e test stimulus in the right eye and 60.0% in the left eyes.

68 rrected visual acuity (BCVA) was 3/10 in his right eye and 7/10 in his left eye.

69 erous pigment epithelial detachment (PED) in right eye and a cuff of subretinal fluid with underlying

70 pping endothelial keratoplasty (DSEK) in the right eye and Descemet's stripping only in the left eye.

71 dow defect, dye pooling due to serous PED in right eye and leak superior to disc in right eye and sup

72 en the treatment and placebo groups (P = .30 right eye and P = .43 left eye).

73 rapidly progressive painful proptosis of the right eye and poor visual acuity.

74 She had a history of stage 4A ROP in the right eye and received scleral buckling.

75 ultrasound biomiscropy was performed on her right eye and showed no ciliary body cysts.

76 f an epiretinal array over the macula in the right eye and subsequent stimulation until his death at

77 e micropulse laser photocoagulation in their right eye and subthreshold 532-nm micropulse laser photo

78 ED in right eye and leak superior to disc in right eye and superotemporally in left eye.

79 After diabetic mice were wounded in the right eye and treated in both eyes with PEDF+DHA for 2 w

80 10(8) transducing units (TU) of CT26 in the right eye and with a control (mock lacZ) vector in the l

81 oubling of the logMAR visual acuity in their right eyes and 10 patients in their left eyes, over a me

82 IOP at enrollment was 15.4 +/- 3.6 mm Hg in right eyes and 15.4 +/- 3.6 mm Hg in left eyes, which ro

83 The AAU affected 3 right eyes and 4 left eyes and was bilateral in 1 patien

84 anged from 7.3 to 8.3 mm Hg (34.1%-38.8%) in right eyes and from 7.6 to 8.2 mm Hg (36.0%-38.9%) in le

85 ing pair had unilateral high myopia in their right eyes and near emmetropia in their left eyes from i

86 numerical reading for 90% of the children's right eyes and the message "Out of range" for a further

87 foveal choroidal thickness was 332 (90) mum (right eyes) and 332 (91) mum (left eyes).

88 or the original film-based grading (n = 4518 right eyes) and varied between 0.46 and 0.71 for the mea

89 for relatedness, repeated measures (left and right eyes), and the effects of age, gender, and refract

90 spatial profile of MPOD was measured in the right eye, and two spatial points were also measured in

91 2.6 mmHg in both eyes, 13.9 +/- 2.7 mmHg in right eyes, and 14.0 +/- 2.7 mmHg in left eyes.

92 eyes, 49% of DSBCS second eyes, 53% of ISBCS right eyes, and 51% of ISBCS left eyes.

93 eyes, 61% of second DSBCS eyes, 63% of ISBCS right eyes, and 63% of ISBCS left eyes.

94 ncreases with age, is more common in men and right eyes, and is strongly associated with affluence.

95 The peak velocities of the left-eye, right-eye, and combined vergence response evoked from sy

96 ery 3 months showed gradual narrowing of the right eye angle and finally three-and-a-half years after

97 Data for 3887 right eyes are included in the analyses.

98 of myopia in each principal meridian in the right eye as measured by cycloplegic autorefraction at a

99 s a man who developed retinal changes in his right eye associated with brilliant blue G migration int

100 tion revealed purulent conjunctivitis of the right eye associated with inflammatory edema of both lid

101 d to OIR underwent intravitreous injections (right eye) at day 14 to achieve intravitreous concentrat

102 By E84, segregation of left and right eye axons is essentially complete, and the six eye

103 ption, we applied a passive deviation to the right eye before the visual straight-ahead task.

104 1 and 2, trabeculectomy was performed in the right eyes, but in group 2, trabeculectomy was followed

105 thirty-three hours after being struck in his right eye by his sneezing Dachshund dog.

106 underwent masked measurement of POBF in the right eye by Langham pneumotonometry.

107 ally) by converting all left eye data to the right eye configuration and subtracting the right eye va

108 compared with when they used their left eye (right eye covered).

109 RT in the right eye decreased to 129 mum.

110 HRT measurements in right eyes differed slightly in rim steepness and rim vo

111 s, 68% and 32% observers were categorized as right eye dominant and left eye dominant, respectively,

112 We found that right eye dominant subjects had a diminished far bias in

113 , and that the right hemisphere (at least in right eye dominant subjects) is biased towards far space

114 ound that the majority of subjects, who were right eye dominant, had relatively nearer bisections and

115 ased visual acuity and metamorphopsia in the right eye due to vitreomacular traction.

116 parison of total RGC counts between left and right eyes estimated from RGC counts in sectors of the r

117 Her IOP remained over 50 mmHg in the right eye even under treatment with oral acetazolamide a

118 ratio for average pupil of 2.80 mm over the right eye (experimental) and plano over the fellow eye (

119 as raised with opaque eye occluders over the right eye for 12 hours daily.

120 at were worn on either both eyes or only the right eye for 12 hours each day.

121 was taken from the bulbar conjunctiva of the right eye for periodic acid-Schiff staining and from the

122 Most people prefer to use their right eye for viewing.

123 d no significant difference between left and right eyes for any species, suggesting that cockatoos us

124 The right eyes from 110 healthy children, 3-6 years of age,

125 -hemisphere" theory, which predicts that the right-eye (i.e. left-hemisphere) is used to categorize s

126 on of corresponding features in the left and right eye images with respect to the points of fixation.

127 e polarity are matched between the left- and right-eye images and result in inverted disparity tuning

128 stem because local features in the left- and right-eye images must be matched correctly to solve this

129 He noticed sudden dropped of vision in his right eye immediately after the procedure.

130 The right eye in case 1 had geographic atrophy (GA) and demo

131 neovascularization (CNV) was observed in the right eye in case 1 in both the periphery and the macula

132 The right eye in case 2 had GA (areolar RPE atrophy) and dem

133 Optic nerve transection was performed on the right eye in one group.

134 upt the proprioceptive representation of the right eye in the left somatosensory cortex, presumably l

135 -5-D lens (a myopiagenic stimulus) over the right eye in their home cages for more than 23 hours per

136 pattern, [(3)H]proline was injected into the right eye in two monkeys.

137 injection of A6 (200 mg/kg per day) into the right eyes in 20 rats and phosphate-buffered saline in 2

138 One month later, BCVA of the right eye increased to 4/10, while BCVA of the left eye

139 th poor visual outcome were infection of the right eye, initial VA, corneal edema, a hypopyon larger

140 sudden visual impairment and floaters of her right eye initiated 2 weeks earlier.

141 f this type of correlated activity, left and right eye inputs segregated normally in the DLGN.

142 gregation of initially intermingled left and right eye inputs to the dorsal lateral geniculate nucleu

143 rs after tube placement of the left eye, her right eye IOP became uncontrolled with medications alone

144 rapidly progressive painful proptosis of the right eye is rarely encountered.

145 m difference in sensitivity between left and right eyes is attributable to light-adaptation differenc

146 It was found that stimulating the right eye led to larger contraction anisocoria than stim

147 d a diminished far bias when they used their right eye (left eye covered) compared with when they use

148 readers measured choroidal thickness in the right eye (left eye if poor quality; n = 37) at 7 locati

149 tinal detachments, suggesting that males and right eyes may have an anatomical predisposition toward

150 For the right eye, mean cycloplegic refraction was +15.09 diopte

151 Analysis was done on the right eye measures for 871 sibling, 341 parent-child, 13

152 straight-ahead position using both left and right eye monocular vision, before and after 15 min of 1

153 Cues signalled a left or right eye movement in the saccade task, and a left or ri

154 Right eye movements were recorded with an EyeLink 1000 i

155 ence training, the CI subjects' left-eye and right-eye movements became significantly more symmetrica

156 proves the symmetry between the left-eye and right-eye movements, increases convergence peak velocity

157 She developed sudden right eye ocular pain and visual disturbances.

158 sudden and persisting loss of vision in her right eye, ocular pain and vomiting.

159 disc edema and an enlarged blind spot in the right eye (oculus dexter, OD).

160 Mean VA was 6/9.5 in the right eye (OD) and 6/12 in the left eye (OS).

161 The relative widths of the left and right eyes' ODCs were measured and related to the contra

162 .1 mL, was injected into the vitreous of the right eye of 12 rabbits.

163 was induced by topical 1% pilocarpine in the right eye of 14 healthy subjects with normal eyes.

164 The right eye of 15 mice received a single subconjunctival i

165 .1 mL) was injected into the vitreous of the right eye of 15 rabbits.

166 ce chronic ocular hypertension (COHT) in the right eye of 18 macaque monkeys.

167 re injected into the subretinal space of the right eye of 3-week-old dystrophic RCS rats through a tr

168 al visual field and in primary gaze) for the right eye of 822 children aged 5 to 14 years participati

169 chemia-reperfusion injury was induced in the right eye of adult NOD-SCID mice (n = 23) by transient e

170 The right eye of each NHP was treated with 3 cycles of SSIOA

171 At one of two visits, the right eye of each participant underwent two digital imag

172 corneal cooling sensation threshold, for the right eye of each subject, was assessed with a double-st

173 rs after a 200-ng dose of latanoprost to the right eye of homozygous (n = 9) and heterozygous (n = 15

174 eft and right eyes, respectively) and in the right eye of the plugs group (p = 0.005); no improvement

175 tion of AA (300 microg) was delivered to the right eyes of 10-week-old LH(BETA)T(AG) mice.

176 intravitreally immediately after RD into the right eyes of 12 rabbits.

177 Data were included from right eyes of 13 424 participants who were 40 years and

178 tions of 2-ME nanoparticles were injected in right eyes of 14 rats (low dose; study group I, high dos

179 ce chronic ocular hypertension (COHT) in the right eyes of 18 macaque monkeys.

180 Experimental glaucoma was induced in the right eyes of 18 rhesus monkeys by argon laser treatment

181 Form-deprivation myopia was induced in the right eyes of 2-day-old chicks by the application of tra

182 Macular images of the right eyes of 23 healthy subjects were obtained with spe

183 Macular images of the right eyes of 23 normal subjects ranging in age from 18

184 minative value in Marfan syndrome, measuring right eyes of 24 control and 13 Marfan syndrome subjects

185 centered on the optic disc was obtained from right eyes of 25 preterm children (10.6 +/- 3.7 years ol

186 The right eyes of 25 rabbits underwent vitrectomy; contralat

187 The right eyes of 26 emmetropic adults were examined using u

188 sured using spectral interferometry from the right eyes of 37 subjects.

189 Experimental RVO was induced in the right eyes of 40 rabbits using laser photothrombosis; th

190 The model predicted ending MD for right eyes of 65% of participants and for 63% of left ey

191 The right eyes of 68 patients were examined and served as th

192 e clinical study included examination of the right eyes of 72 patients.

193 to the 5-year incidence of idiopathic ERM in right eyes of age-matched Blue Mountains Eye Study (BMES

194 Right eyes of all subjects were selected for analysis.

195 etinal detachments (RDs) were induced in the right eyes of both Rs1-KO and wild-type (wt) control mic

196 remaining and free eyes in study groups and right eyes of control group had full ophthalmological ex

197 n of AAV-ECSOD or AAV-CAT, or both, into the right eyes of DBA/1J mice.

198 es adjacent to the optic nerve margin in the right eyes of four cynomolgus monkeys.

199 in AAV2 capsids that were injected into the right eyes of mice.

200 ntal retinal detachments were created in the right eyes of nine cats.

201 w eyes (mean = 0.2 log deg(2), P < 0.01) and right eyes of normal controls (mean = 0.12 log deg(2), P

202 For IOP and body weight measurements, right eyes of rabbits were topically treated with vehicl

203 The AAV vector was delivered into the right eyes of RPGRIP(-/-) mice by a single subretinal in

204 A blank nanoemulsion was injected in the right eyes of seven rats (control positive group I).

205 ions, refraction data were available on 2362 right eyes of the 2937 people examined at baseline and 1

206 nst individual perimetric thresholds for the right eyes of three normally sighted trained observers f

207 Biometry was performed on 20 healthy right eyes of volunteer subjects with mean age, 27.3 +/-

208 re treated with periocular injections to the right eye only of saline (n = 42), anecortave acetate (a

209 photoreceptor sparing was documented in the right eye only using SD-OCT.

210 Tag transgenic mice were then treated in the right eye only with TPT in FS (3.2 mg/mL in 30 microL; 0

211 were injected with 1 x 10(8) TU GiNWF in the right eye only, with the left eye serving as an uninject

212 2.0 mg delivered at 72-hour intervals to the right eye only.

213 ilar in both eyes, they are reported for the right eye only.

214 rough biweekly subconjunctival injections to right eyes only for 3 weeks.

215 injections of DMSO or of saline solution to right eyes only or they remained untreated.

216 ations in both eyes of eight CNX (surgery on right eyes only) and eight normal chicks were measured w

217 tate (600, 300, and 150 microg) delivered to right eyes only, either during a cycle of carboplatin (s

218 ections delivered with a 72-hour interval to right eyes only.

219 1200, 600, 300, and 150 microg) delivered to right eyes only.

220 ey can even exercise the option of using the right eye or the left eye.

221 gnificantly correlated with severity of ROP (right eye, P < .001; left eye, P < .01).

222 ments were seen in fixation losses (P = 0.94 right eye, P = 0.17 left eye), false positives (P = 0.85

223 ces in the rate of false positives (P = 0.82 right eye, P = 0.18 left eye) or false negatives (P = 0.

224 ificantly between the three groups (P = 0.30 right eye, P = 0.24 left eye).

225 = 0.17 left eye), false positives (P = 0.85 right eye, P = 0.38 left eye), and false negatives (P =

226 .38 left eye), and false negatives (P = 0.13 right eye, P = 0.50 left eye).

227 0.18 left eye) or false negatives (P = 0.91 right eye, P = 0.97 left eye).

228 surgery on the left eye (58.9% vs. 41.1% for right eye; P = 0.03) showed a statistically significant

229 ns he presented with 3-day history of severe right eye pain, pain with ocular movement, proptosis, an

230 eye peak velocity was approximately equal to right-eye peak velocity) compared to CI subjects (P < 0.

231 The right-eye perimetric results of 100 subjects were analyz

232 Symmetry of left and right eye progression rate was also tested.

233 His symptoms included right eye proptosis, periocular edema and redness.

234 mellitus who presented with facial pain and right eye proptosis.

235 Covering the right eyes provided the same amount protection against C

236 ent among volunteers with no ocular disease (right eye: r(2) = 0.29, P = 0.0006; left eye: r(2) = 0.2

237 LG, the median volume was 0.22 cm(3) in the right eye (range, 0.06-0.36 cm(3)) and 0.24 cm(3) in the

238 peripheral retinal neovascularization in her right eye(RE).

239 wing a three-dimensional scene, the left and right eyes receive slightly different information, and t

240 The left and right eyes receive subtly different images from a visual

241 High-resolution maps of the left and right eye receptive fields indicated that both phase and

242 lens group (p = 0.02 and 0.018 for left and right eyes, respectively) and in the right eye of the pl

243 Gonioscopy in the right eye revealed an open angle to the ciliary body ban

244 namics that no longer require conjugate left-right eye rotations for effective retinal image stabiliz

245 en the number of these cells in the left and right eyes Second, developmental analysis shows that the

246 The right eye served as the control.

247 with the sensation of a foreign body in her right eye; she reported no symptoms in her left eye.

248 s 20/20 in both eyes and visual field in the right eye showed inferior arch with fixation sparing and

249 .50 diopters (D) and hyperopia as >/=+2.00 D right eye spherical equivalent refraction.

250 level of activation (R=0.645, P=0.007), with right eye stimulation using the 1.0 c/deg grating.

251 cular models in which signals from left- and right-eye streams could be integrated at various stages

252 ophobia, redness and decreased vision in his right eye ten days after ICRS implantation for correctio

253 er primary graft failure with regraft in the right eye, the second posterior corneal lenticule detach

254 In 41 right eyes, the mean pre-study IOP was 14.3 +/- 3.4 mmHg

255 -month history of gradual vision loss in the right eye to the extent that he could only perceive hand

256 nthurus triostegus preferentially used their right-eye to investigate a variety of visual stimuli.

257 cular by placing an infrared filter over the right eye, to block visible light but pass the near-infr

258 67 years with vitreo-macular traction in the right eye, treated with Ocriplasmin, at the Eye Clinic o

259 d biomicroscopy performed at the time of the right eye tube shunt revealed extensive ciliary body cys

260 e been associated with differential left and right eye use and navigational behavior.

261 ll visual field testing was performed on the right eye using the Humphrey Field Analyzer (HFA; Carl Z

262 right eye configuration and subtracting the right eye value from that of the left eye.

263 between the two eyes of 6.3 +/- 1.7 degrees (right eye value minus left eye, up being positive, each

264 rve corresponding to the patient's implanted right eye versus the optic nerves from the RP patients (

265 etries were strongly correlated for left and right eye viewing (look: r = 0.77, P = 0.0008; stare: r

266 rrelation at 0.5 degrees eccentricity in the right eye was 0.9.

267 atient's best-corrected visual acuity in the right eye was 20/70 before surgery, and it improved to 2

268 Retinal thickness in the foveal area of the right eye was 631 mum.

269 The right eye was always tested first.

270 Distance refractive state of the right eye was assessed every 2 seconds for 30 seconds af

271 The visual field examined from the right eye was categorized as normal (n = 47), mildly abn

272 icroscopy (UBM) showed that the angle in the right eye was closed 360 degrees circumferentially.

273 The right eye was form deprived by means of a skull-mounted

274 overnight, eyes dilated with mydriatics; the right eye was light occluded and the fundus of the left

275 Axial length of the right eye was measured in 30 emmetropes and 30 myopes, b

276 The right eye was more severely affected than the left eye.

277 Her intraocular pressure in the right eye was raised at 55 mmHg, with a 1.6 mm hyphaema

278 Only the right eye was used for statistical analysis.

279 The mean spherical equivalent (SE) in the right eyes was +0.60 diopter (D) (95% confidence interva

280 (95% CI, 55.9%-58.4%) and the proportion of right eyes was 52.6% (95% CI, 51.1%-54.2%).

281 ferred monocular orientation in the left and right eyes was highly correlated (r = 0.98), 19 of 61 ce

282 The RNFL in the right eyes was thicker in the temporal and nasal quadran

283 pherical equivalent refractive data from the right eye were used to classify significant refractive e

284 Only data from the right eye were used.

285 ion with underlying iris surface features in right eyes were assessed using linear regression analysi

286 If only the right eyes were considered, the prevalence of target con

287 After the first month, the right eyes were exposed to seven 5-second doses of nonph

288 Posterior-temporal scleras from 75 right eyes were procured at an average distance of 3.5 m

289 The right eyes were removed and prepared for flatmount analy

290 yes were removed for histopathology, and the right eyes were removed for flatmount analysis of CNV su

291 In cases with bilateral surgery, only the right eyes were studied.

292 The right eyes were subjected to trabeculectomy, and the lef

293 Right eyes were untreated.

294 on axial length were included in the study; right eyes were used for analyses.

295 underestimation of the angle of gaze of the right eye when fixating the target.

296 togenous retinal detachments in males and in right eyes, which might suggest interesting differences

297 sets of visual fields were performed on the right eye with 10 minutes between tests.

298 history included a penetrating injury of the right eye with a sharp metallic object 40 years ago and

299 Tear osmolarity was measured in the right eye with a tear osmometer.

300 k-old C57BL6 mice were inoculated into their right eyes with aliquots of 5 x 10(5)/2.5 muL B16LS9 mel