ライフサイエンスコーパス: left eye

1 e three groups (P = 0.30 right eye, P = 0.24 left eye).

2 alse negatives (P = 0.91 right eye, P = 0.97 left eye).

3 alse negatives (P = 0.13 right eye, P = 0.50 left eye).

4 -0.1 to 0.3 [Snellen 20/16 to 20/40] in the left eye).

5 lacebo groups (P = .30 right eye and P = .43 left eye).

6 treatments in the right eye and 1790 in the left eye).

7 332 (90) mum (right eyes) and 332 (91) mum (left eyes).

8 m micropulse laser photocoagulation in their left eye.

9 ith a sudden, painless loss of vision in her left eye.

10 us onset of malignant glaucoma involving the left eye.

11 cuity of 0.7 in his right eye and 0.8 in his left eye.

12 deposits along superotemporal arcade in the left eye.

13 to disc in right eye and superotemporally in left eye.

14 endothelial replacement was performed in the left eye.

15 ght eye and Descemet's stripping only in the left eye.

16 rity, for example, nose region brighter than left eye.

17 ight eye was more severely affected than the left eye.

18 ted on light-adapted static perimetry in the left eye.

19 racting the right eye value from that of the left eye.

20 contraction anisocoria than stimulating the left eye.

21 ciated with serous retinal detachment in the left eye.

22 ted in the superior temporal quadrant of the left eye.

23 two spatial points were also measured in the left eye.

24 0.059 (6/6 or 20/20 +/- 2.95 letters) in the left eye.

25 onset of a scotoma in the nasal field of his left eye.

26 and with a control (mock lacZ) vector in the left eye.

27 dislocated into the anterior chamber of her left eye.

28 in the right eye and 0.30 +/- 0.41 D in the left eye.

29 nset of central scotoma and photopsia in the left eye.

30 nted with a two-month history of a congested left eye.

31 was 20/20 in the right eye and 20/80 in the left eye.

32 -0.3, P < .001) reduction of the IOP in the left eye.

33 l granuloma with a few calcifications in the left eye.

34 tion revealed counting fingers vision in the left eye.

35 rady for complaints of metamorphopsia in her left eye.

36 and outer photoreceptor segment junction in left eye.

37 hy (OCT) revealed the presence of CME in the left eye.

38 photography did not differ between right and left eye.

39 A) was 3/10 in his right eye and 7/10 in his left eye.

40 e floater in the central visual field of her left eye.

41 ed vision, and foreign body sensation in his left eye.

42 ise the option of using the right eye or the left eye.

43 d with sudden painless loss of vision in his left eye.

44 ith loss of vision and metamorphopsia in her left eye.

45 n was referred for recent vision loss in her left eye.

46 splinter hemorrhages and soft exudate in the left eye.

47 due to a sudden loss of visual acuity in the left eye.

48 r right eye; she reported no symptoms in her left eye.

49 eye and 0.38 (20/48) vs. 0.50 (20/63) in the left eye.

50 was 20/20 in her right eye and 20/30 in her left eye.

51 was 20/50 in the right eye and 20/20 in the left eye.

52 were followed by vision disturbances in his left eye.

53 the stimulus response curve of the right and left eyes.

54 mmHg in right eyes, and 14.0 +/- 2.7 mmHg in left eyes.

55 s, 63% of ISBCS right eyes, and 63% of ISBCS left eyes.

56 ical cataract severity in both the right and left eyes.

57 t stimulus in the right eye and 60.0% in the left eyes.

58 r and 173.1 +/- 146.8 mum/year for right and left eyes.

59 AAV-GFP was injected into the left eyes.

60 ly significant correlation between right and left eyes.

61 disc area or rim area between the right and left eyes.

62 second arm of the study was performed in the left eyes.

63 n male and female eyes and between right and left eyes.

64 imates than do separate analyses of right or left eyes.

65 al or lissamine green B was instilled in the left eyes.

66 tinopathy progressed in 93 right eyes and 77 left eyes.

67 r right eyes and 1.4 (95% CI: 0.72, 2.9) for left eyes.

68 DSBCS eyes, and between the ISBCS right and left eyes.

69 s, 53% of ISBCS right eyes, and 51% of ISBCS left eyes.

70 ear and 2.52 +/- 3.54 mum/year for right and left eyes.

71 all the parameters between the right and the left eyes.

72 ed between control (right) and experimental (left) eyes.

73 tly lower (right eye 0.77, 95% CI 0.64-0.89; left eye 0.81, 95% CI 0.68-0.90).

74 staining (right eye 0.87, 95% CI 0.80-0.93, left eye 0.85, 95% CI 0.75-0.93) demonstrated excellent

75 staining (right eye 0.86, 95% CI 0.76-0.93, left eye 0.90, 95% CI 0.81-0.95) and conjunctival staini

76 of the right eyes (26 of 49) and 46% of the left eyes (22 of 48) had a systolic OPP of 101 mm Hg or

77 of the right eyes (31 of 49) and 65% of the left eyes (31 of 48) had a mean OPP of 42 mm Hg or less.

78 of the right eyes (35 of 49) and 73% of the left eyes (35 of 48) had a diastolic OPP of 55 mm Hg or

79 surgery procedure (11%), and surgery on the left eye (58.9% vs. 41.1% for right eye; P = 0.03) showe

80 ce interval [CI] 0.85-0.96) and 0.90 for the left eye (95% CI 0.83-0.97).

81 fractive error measurements in the right and left eyes after adjustment for age, sex, and education.

82 m agglutinin-horseradish peroxidase into the left eye and [3H]proline into the right eye.

83 ed stimulus (CS) was paired with a US to the left eye and a long CS was paired with a US to the right

84 n revealed 3 cm of relative proptosis of the left eye and a palpable mass in the left superonasal orb

85 MM lost his left eye and became blind in the right due to corneal da

86 nasal branch retinal artery occlusion in the left eye and bilateral NTG, as a result of the ophthalmo

87 RNT measured 101.4 mu (SD = 36.6 mu) for the left eyes and 100.8 mu (SD = 35.4 mu) for the right eyes

88 s), 63 of the eyes in the study (56.3%) were left eyes and 85 patients (75.9%) were taking ocular ant

89 e mean scores were similar for the right and left eyes and for monozygotic and dizygotic twins.

90 the reported increased rates of cataract in left eyes and left-sided facial skin cancer.

91 The AAU affected 3 right eyes and 4 left eyes and was bilateral in 1 patient (12.5%).

92 After vergence training, the CI subjects' left-eye and right-eye movements became significantly mo

93 e training improves the symmetry between the left-eye and right-eye movements, increases convergence

94 alse positives (P = 0.85 right eye, P = 0.38 left eye), and false negatives (P = 0.13 right eye, P =

95 Her visual acuity was 20/200 in the left eye, and 20/20 in the right eye.

96 icroscopy revealed ciliary body cysts in the left eye, and gonioscopy confirmed chronic angle closure

97 re preferentially innervated by the right or left eye, and segregation is complete within the dorsalm

98 ppressive interactions between the right and left eyes, and some showed facilitatory interactions.

99 tio of 0.5 for the right eye and 0.8 for the left eye, arteriolar constriction in both eyes, retinal

100 n subjects demonstrated greater right versus left eye-blink prepulse inhibition, whereas the probands

101 t, bandage contact lens was removed from her left eye, but none was found in the right eye.

102 Agouti rats had elevated IOP induced in the left eye by hypertonic saline episcleral vein injections

103 nificantly greater startle responses for the left eye compared with the right in the PTSD subjects su

104 d a diminished far bias when they used their left eye compared with when they used their right eye.

105 No injections performed in contralateral left eyes (control positive group II).

106 ectors help to work out which feature in the left eye corresponds to a given feature in the right.

107 hed far bias when they used their right eye (left eye covered) compared with when they used their lef

108 th overall and regionally) by converting all left eye data to the right eye configuration and subtrac

109 Left eye data were similar.

110 The smaller group of subjects who were left eye dominant had relatively nearer bisections and a

111 Left eye dominant subjects showed the opposite pattern a

112 s were categorized as right eye dominant and left eye dominant, respectively, according to the test.

113 , those larvae that previously favored their left-eye exhibited higher survival.

114 he reverse was found for chicks that had the left eye exposed to light.

115 ixation losses (P = 0.94 right eye, P = 0.17 left eye), false positives (P = 0.85 right eye, P = 0.38

116 ong lateralized visual behaviors using their left eye/foot to assist with food manipulation during fo

117 r periodic acid-Schiff staining and from the left eye for MUC5AC mucin immunostaining at baseline and

118 heir right eyes and near emmetropia in their left eyes from infancy.

119 een the two repeated visits in the right and left eye groups (P > 0.05).

120 r right eyes were 7.7 times higher after the left eye had progressed and, for left eyes, were 4.4 tim

121 als, 13 male and 26 females, 17 right and 19 left eyes have been included in this prospective, random

122 and-a-half years after tube placement of the left eye, her right eye IOP became uncontrolled with med

123 ere) is used to categorize stimuli while the left-eye (i.e. right-hemisphere) is used to inspect nove

124 asured choroidal thickness in the right eye (left eye if poor quality; n = 37) at 7 locations: fovea

125 l best corrected visual acuity (BCVA) of the left eye improved from hand motion at 15 cm to 0.1.

126 umns overlapped the unlabeled columns of the left eye in the autoradiograph.

127 a significant correlation between right and left eyes in the severity of NV (clock hours; r(s) = 0.7

128 Conversely, large head injuries that left eyes intact increased eye progenitor production.

129 METHODs: One group of rabbits received left-eye intracameral inoculation of UV-inactivated herp

130 sudden painless profound visual loss in the left eye (LE) two hours after embolization.

131 resented with reduced vision (20/100) in her left eye (LE).

132 erifoveal region of species that have strong left eye-left foot lateralized behaviors.

133 Thirty-two right/left eye models were created from three-dimensional reco

134 With the left eye occluded, subjects were instructed to look quic

135 es of soft contact lenses were tested on the left eye of 10 subjects (6 male and 4 female).

136 present in the right eye of 47.5% and in the left eye of 48.0% of children.

137 anced saline solution was injection into the left eye of each rabbit as a control.

138 Alcon, Ft. Worth, TX) was injected into the left eye of each rabbit as a control.

139 8-mm stromal dissection was performed in the left eye of each rabbit.

140 The BRB of the left eye of normal and immunosuppressed mice was disrupt

141 Specifically, the left eye of this species projects primarily to the right

142 Star2, Santa Clara, CA) was performed on the left eyes of 20 adult New Zealand White rabbits.

143 ective, digital photographs of the right and left eyes of 39 subjects with papilledema acquired over

144 Left eyes of 52 rabbits were rendered totally limbal ste

145 A cross sectional study was performed in 989 left eyes of 989 healthy subjects.

146 neal stromal dissection was performed in the left eyes of adult New Zealand rabbits treated with DHA+

147 Two days later, the left eyes of all mice were inoculated with MCMV by subre

148 injected into the supraciliary space of the left eyes of BALB/c mice.

149 n acetate was injected intravitreally in the left eyes of male C57BL/6 mice, with final vitreal conce

150 The left eyes of nonimmunosuppressed (non-IS) BALB/c mice, i

151 ion was obtained on 3007 right eyes and 3012 left eyes of the 3684 people participating in both exami

152 Circular, raster, and radial scans of left eye optic nerves were acquired from 40 normal rhesu

153 nd their "type" (ON center or OFF center and left eye or right eye).

154 alse positives (P = 0.82 right eye, P = 0.18 left eye) or false negatives (P = 0.91 right eye, P = 0.

155 temic treatment of OD and the newly affected left eye (OS), the change in vision improved from CF in

156 6/9.5 in the right eye (OD) and 6/12 in the left eye (OS).

157 y of fluorescence was identical in right and left eyes over an approximately 70-minute measurement pe

158 in their right eyes and 10 patients in their left eyes, over a mean follow-up (FU) period of 18.6 yea

159 n rim steepness and rim volume from those in left eyes (P < .05).

160 d with severity of ROP (right eye, P < .001; left eye, P < .01).

161 d controls (median = 0.54 right eye and 0.53 left eye; P < 0.05).

162 l cortex (V1) is the site at which right and left eye pathways are first integrated, leading to a rep

163 ontrols were significantly more symmetrical (left-eye peak velocity was approximately equal to right-

164 eye was light occluded and the fundus of the left eye photographed ( approximately 15-17 overlapping

165 The left eye pressure then increased and the XEN implant was

166 disease (right eye: r(2) = 0.29, P = 0.0006; left eye: r(2) = 0.29, P < 0.0001).

167 rticipants are presented for either right or left eye (randomly selected).

168 ange, 0.06-0.36 cm(3)) and 0.24 cm(3) in the left eye (range, 0.08-0.34 cm(3)).

169 A 32-year-old woman had left eye RAO and a bilateral visual field defect after C

170 The left eyes received a saline injection as a control.

171 The left eye remained as an unoperated control.

172 (L) 4.02 mm and 4.09 mm in the right and the left eye, respectively.

173 , L 3.78 mm and 3.81 mm in the right and the left eye, respectively.

174 microm and 515-/+21 microm in the right and left eyes, respectively (mean+/-SD).

175 7.0 +/- 3.3 and 16.7 +/- 3.6 dB in right and left eyes, respectively (paired t-test, P < 0.01).

176 mm Hg and 17.5 (4.0) mm Hg in the right and left eyes, respectively, and increased to 21.4 (3.6) mm

177 et of diabetes, the corneas of the right and left eyes, respectively, were abraded by mechanical scra

178 were -0.279 D and -0.174 D in the right and left eyes, respectively.

179 8 and 8.7 +/- 5.7 decibels (dB) in right and left eyes, respectively.

180 mean 0.49 mm(2), SD 0.42 mm(2)) in right and left eyes, respectively.

181 /-22 microm and 534+/-20 microm in right and left eyes, respectively.

182 A remained at 20/150 and 20/60, in right and left eyes, respectively.

183 ) and -10.5 dB (SD, 7.1 dB) in the right and left eyes, respectively.

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

185 The peak velocities of the left-eye, right-eye, and combined vergence response evok

186 pattern and reinstated the normal pattern of left eye/right hemisphere dominance during aggression.

187 ETOH decreased the use of the left eye/right hemisphere, but not the right eye/left he

188 subjects were found to have a suppression of left eye/right hemisphere-mediated aggression.

189 ubjects were found to have a predominance of left eye/right hemisphere-mediated aggressive responses,

190 between EZW constriction rates of right and left eyes (rs = 0.627, P = .0002) and between EZW constr

191 In one animal, the left eye's coordinates were rotated approximately 20 deg

192 ncode monocular commands for either right or left eye saccades.

193 rong EBOV antigen staining were noted in the left eye (scleritis, conjunctivitis, and peri-optic neur

194 ion of all eyes, right eyes were treated and left eyes served as infected controls.

195 es were subjected to trabeculectomy, and the left eyes served as the control.

196 (8) TU GiNWF in the right eye only, with the left eye serving as an uninjected control.

197 Ophthalmoscopic examination of the left eye showed a geographic patch of subretinal fluid t

198 he temporal and nasal quadrants, whereas the left eyes showed thicker RNFL in the superior quadrant.

199 OD, commonly used to quantify the right and left eye synaptic inputs, have previously been based on

200 comparison subjects: it was greater for the left eye than the right eye in the PTSD patients only.

201 PTSD): the startle reflex was larger for the left eye than the right in the subgroup with recent PTSD

202 Fundus hemorrhages were more common in the left eye than the right.

203 s and from 7.6 to 8.2 mm Hg (36.0%-38.9%) in left eyes through 12 months.

204 A year after her tube shunt placement in the left eye, ultrasound biomiscropy was performed on her ri

205 0.49 mm in the right eye and -0.52 mm in the left eye, under pilocarpine).

206 f 6.3 +/- 1.7 degrees (right eye value minus left eye, up being positive, each measured during monocu

207 Responses with right and left eye viewing were compared to investigate consistenc

208 re included in the study, and the ONH in the left eye was imaged with SD-OCT and stereo color photogr

209 onset of blurred vision with floaters in his left eye was noted.

210 itially unstable binocular control after the left eye was patched.

211 Sensitivity in the left eye was slightly lower than in the right, with the

212 ght eye increased to 4/10, while BCVA of the left eye was unchanged.

213 val [CI], 0.49-0.72), and the mean SE in the left eyes was +0.59 (95% CI, 0.50-0.68).

214 amount of nuclear cataract in the right and left eyes was determined objectively by analysis of Sche

215 obtained by stimulating a subject's right or left eye were compared to determine any potential latera

216 Movements of the left eye were measured using infrared oculography.

217 , the amplitudes of saccades executed by the left eye were reduced.

218 nd 12 (10, 15) microm, respectively, and for left eyes were 12 (10, 15) and 11 microm (8, 14) microm,

219 The correlations between right and left eyes were assessed by the intraclass correlation co

220 ducibility and differences between right and left eyes were assessed using intraclass correlation coe

221 Differences between right and left eyes were calculated and values were compared by me

222 Left eyes were fixed, and retinas were dissected and sta

223 consistency of the statistical analysis, the left eyes were horizontally flipped in the x-direction.

224 Control cells and left eyes were inoculated with AAV-GFP.

225 Unwounded left eyes were normal controls.

226 rences in the average RNFL between right and left eyes were not statistically significant.

227 Left eyes were processed for routine histology.

228 At 1, 2, and 4 weeks, the left eyes were removed for histopathology, and the right

229 then perfused with 10% formaldehyde, and the left eyes were removed for histopathology.

230 Right and left eyes were similar for diametric measurements (ICC,

231 r after the left eye had progressed and, for left eyes, were 4.4 times higher after the right eye had

232 Seven patients had ptosis in the left eye whereas one patient had ptosis in the right eye

233 e short CS produced short-latency CRs in the left eye, whereas the long CS produced long-latency CRs

234 apparent choroidal neovascularization in the left eye, which was confirmed by fluorescein angiography

235 tructural progression rate between right and left eye, which was found in 19% of patients.

236 m Hg in right eyes and 15.4 +/- 3.6 mm Hg in left eyes, which rose to 21.0 +/- 3.3 mm Hg and 20.9 +/-

237 Mean IOP of right and left eyes while sitting with the neck in neutral positio

238 y Study charts (ETDRS), on the retina of her left eye white, prominent, partially calcified tumour 1

239 nt still complained of loss of vision in the left eye with a central scotoma.

240 oscopy showed conjunctival hyperaemia in the left eye with a slight elevation, suggesting a subconjun

241 association with gender was detected in the left eye, with boys approximately 2 letters more variabl

242 tion after Descemet's stripping alone in the left eye, with probable host endothelial cell repopulati

243 t eyes of 65% of participants and for 63% of left eyes within 3 dB of actual results at 7 years.