ライフサイエンスコーパス: quadrant

1 Relationships were similar for temporal quadrant.

2 ing the central breast and right upper outer quadrant.

3 a second mass was palpated in the left upper quadrant.

4 that included one superior and one inferior quadrant.

5 aks, whereas 58.8% had breaks in more than 1 quadrant.

6 tralateral teeth, and the deepest pocket per quadrant.

7 as found (0.435-0.884), except for the nasal quadrant.

8 ion appeared in their top-right visual-field quadrant.

9 eft eyes showed thicker RNFL in the superior quadrant.

10 s of 8 subjects, mostly only in the temporal quadrant.

11 , with rebound tenderness in the right lower quadrant.

12 thinner nasal RNFLs compared to the temporal quadrant.

13 in all regions (P < 0.001) except the nasal quadrant.

14 spread, node status, tumor height, and tumor quadrant.

15 innest (67.36 +/- 11.36 mum) at the temporal quadrant.

16 rity stage differences clustered in separate quadrants.

17 buried ONHD and papilledema in any of the 4 quadrants.

18 involved 2 (n = 1), 3 (n = 4), or 4 (n = 6) quadrants.

19 nner (10.6% [17 of 160] vs 7.8% [61 of 784]) quadrants.

20 tatistically different compared to the other quadrants.

21 he lowest CV and highest ICC compared to the quadrants.

22 points and the nasal, temporal, and inferior quadrants.

23 ch separately innervate the four body muscle quadrants.

24 espectively) compared with specific anatomic quadrants.

25 f the second premolar and first molar in all quadrants.

26 ng index teeth and different combinations of quadrants.

27 hamber angle (ACA) in the nasal and temporal quadrants.

28 organization, at the scale of entire visual quadrants.

29 posterior trabecular meshwork for at least 2 quadrants.

30 tructure of the corneoscleral limbus, in all quadrants.

31 the temporal, superior, nasal, and inferior quadrants.

32 ral-domain optical coherence tomography in 4 quadrants.

33 egional-ventilation-delay obtained from lung quadrants.

34 narrowing and segmentation were seen in all quadrants.

35 emporal (P = .376), and inferior (P = 1.000) quadrants.

36 19 +/- 8%, and 40 +/- 21% increase in those quadrants.

37 mporal quadrants than the inferior and nasal quadrants.

38 retina (4.4%) were detached than when only 1 quadrant (0.8%) had subretinal fluid.

39 -temporal sector (0.964, 0.932) and superior quadrant (0.962, 0.924).

40 obe (0.969, 0.952), followed by the inferior quadrant (0.966, 0.949) and inferior-temporal sector (0.

41 odontal index (CPI), and two random diagonal quadrants (1 and 3, 2 and 4).

42 B-B-DL sites of randomly selected half-mouth quadrants (1 or 2 and 3 or 4) achieved results closer to

43 7 mum, respectively; p < 0.011) and inferior quadrant (120.14 +/- 11.0 vs 132.68 +/- 8.03 mum; p < 0.

44 hinner than in control group in the superior quadrant (130.16 +/- 10.02 vs 135.18 +/- 9.27 mum, respe

45 mary implants occurred in the inferior-nasal quadrant (17.2%, 5 of 29).

46 1 break, it was most likely to be in the ST quadrant (182 eyes; 55%) and least likely to be in the I

47 eyes; 55%) and least likely to be in the IN quadrant (19 eyes; 6%).

48 ighest rate also found in the inferior-nasal quadrant (20%, 5 of 25).

49 orrhages were found most frequently in all 4 quadrants (35%) and more often were multiple than solita

50 stic capability was associated with inferior quadrant 3D RNFL volume of the smallest annulus (AUROC v

51 le (-15 degrees to +15 degrees) and temporal quadrant (-45 degrees to +45 degrees) relative to the fo

52 17 vs 72 +/- 13 mum, P < .001) and temporal quadrant (72 +/- 21 vs 82 +/- 16 mum, P = .005).

53 rences of nonoperatively treated right lower quadrant abdominal pain are less than 14% and may be saf

54 Right lower quadrant abdominal pain is a common cause of emergency d

55 y department for severe weakness, left lower quadrant abdominal pain, weight loss and diarrhoea.

56 on thrombectomy arm (patients with number of quadrants above the median value 60% in the manual aspir

57 The mean number of quadrants affected was 2.4 (range, 1-4).

58 icroscopy scans were obtained in all corneal quadrants after 1 year.

59 .7% of all subjects had open angles in all 4 quadrants after LPI, with a greater percentage of angles

60 he rupture turned twice into the compressive quadrant, against the preferred branching direction pred

61 All four quadrants also showed statistically significant reductio

62 ifference in VF defects were found by either quadrant analysis (p = 0.1 treated group, p = 0.5 contro

63 Surgical difficulty of ERM removal for each quadrant and fovea was compared to extent of ERM adheren

64 er than 2D RNFL thickness only for the nasal quadrant and inferior-nasal and superior-nasal sectors (

65 most frequently located within the superior quadrant and least frequently located within the central

66 therapy, scaling and root planing (SRP) per quadrant and one-stage full-mouth disinfection (FMD), on

67 They were most abundant in the superior quadrant and spared the foveal region.

68 ver, only the RNFL thickness of the temporal quadrant and the macular thickness of the superior outer

69 RNFL) thickness values were determined for 4 quadrants and 4 sectors using a spectral-domain OCT devi

70 of impedance change were calculated for lung quadrants and for every single electrical impedance tomo

71 /=4 mm was lowest with examination of single quadrants and highest with combinations that included on

72 sses showed small significant differences in quadrants and larger differences in clock-hour sectors (

73 disease (OR, 7.12; 95% CI, 2.53-20.1 for 1-2 quadrants and OR, 18.4; 95% CI, 4.28-79.4 for 3-4 quadra

74 o 3.2 mm in the control group (132 abdominal quadrants) and 1-3.3 mm in the study group (136 abdomina

75 al quadrants, increased RNFL in the temporal quadrant, and a thinner ganglion cell and inner plexifor

76 3D RNFL volumes were calculated for global, quadrant, and sector regions, using 4 different-size ann

77 nificant hypotony, grade C-1 PVR, 4 detached quadrants, and large or giant retinal breaks were indepe

78 te analysis showed grade C-1 PVR, 4 detached quadrants, and presence of choroidal detachment or signi

79 be involved, then the inferior and superior quadrants, and the nasal quadrant showed the latest and

80 regularly publish models located in all four quadrants, and the prominence of work from the eastern z

81 rns (full field, superonasal and inferonasal quadrant arcs).

82 ntrols deprived of visual stimulation in one quadrant ["artificial scotoma" (AS)].

83 e cancers (1.1%) occurred in the same breast quadrant as the one originally diagnosed with LN at need

84 icant thinning of RNFL in superior and nasal quadrants as compared to age-matched normal eyes.

85 was above normal baseline thickness in all 4 quadrants as measured by OCT at the time of conversion.

86 t in the superior (-14%) and inferior (-10%) quadrants as well as global average (-13%).

87 cts drew phosphenes in the same visual field quadrant, as predicted by the quad-fovea location.

88 at C7-T1 and more widely dispersed among the quadrants at C8-T1.

89 2 +/- 10.9 mm(2)) and present in only 1 to 2 quadrants at maximal depths of 3.8 +/- 2.7 mm.

90 rage thickness (0.87 +/- 0.03), and inferior quadrant average thickness (0.85 +/- 0.03).

91 meters estimated for tumor clearance in each quadrant based on HRCM-RV findings were calculated and c

92 Diagnostic performance on a quadrant basis was assessed by using areas under the rec

93 Eyes with an IN quadrant break were almost twice as likely to harbor fur

94 further breaks compared with eyes with an ST quadrant break.

95 most likely to be detached (92%), whereas IN quadrant breaks were least likely to be detached (60%).

96 ST quadrant breaks were most likely to be detached (92%), w

97 ly the atomic morphology of the flux-closure quadrant but also a periodic array of flux closures in f

98 ity was compared across average and anatomic quadrant by calculating the coefficient of variation (CV

99 was sampled from the deepest pocket of each quadrant by using paper points and by gaining saliva wit

100 , and nasal, temporal, superior and inferior quadrants) by linear and non-linear mixed-effects models

101 ean change in thickness of the most affected quadrant (central vein occlusion) or hemisphere (branch

102 esented with equal probability (25%) in each quadrant, chickens exhibited a distinct advantage for de

103 In the inferior, nasal, and temporal quadrants, chinese showed significantly higher proportio

104 were calculated for the average and anatomic quadrant circumpapillary RNFL thickness.

105 t differences between the temporal and nasal quadrants; clock hours 3 (55 vs. 73 mum), 4, 8 (93.9 vs.

106 field), RNFL thickness was decreased in all quadrants compared with the normal-vision group (P < .00

107 The number of optical coherence tomography quadrants containing thrombus in MTA arm was higher than

108 Results indicated that the NAc rostrodorsal quadrant contains a shared opioid hedonic hotspot that s

109 Teeth were treated with SRP in two control quadrants (control groups [CG]), and the diode laser was

110 combinations of a superior plus an inferior quadrant, could be useful to evaluate periodontal status

111 in the absence of stimulation for the visual quadrant covered.

112 aps around a circular track partitioned into quadrants covered by different textures (the local refer

113 The superior quadrant CV differed between subjects with (4.4%) and wi

114 cept that the thickness of the superior RNFL quadrant decreased with age.

115 Global average and the inferior quadrant demonstrated the best positive and negative pre

116 The quadrant distribution of the tumors was significantly di

117 se with venous beading, whereas those with 4-quadrant dot-blot hemorrhages (4Q DBH) had 3.84 higher H

118 We divide the map into quadrants, each of which features a signature behavioral

119 .001) and superior (beta = -2.340, P = .001) quadrants even after adjusting for potential confounders

120 Biopsies should be obtained in 4-quadrants every 1-2 cm and of any visible lesions.

121 e biopsy protocol of obtaining biopsies in 4 quadrants every 2 cm throughout the length of the origin

122 s, significant RNFL thinning was seen in all quadrants except the temporal in Uv-G eyes and significa

123 lance biopsies should be performed in a four-quadrant fashion every 1-2 cm with target biopsies obtai

124 Exclusion of the nasal quadrant from the ISNT rule significantly increased the

125 Average and quadrant ganglion cell-inner plexiform layer measures de

126 revious divisions do not divide the cells in quadrants, generating asymmetry in the daughter cells.

127 Every patient had, in each quadrant, >/=2 teeth each with approximal sites with a p

128 ith right-sided thoracoabdominal/right upper quadrant gunshots and/or hematuria underwent mandatory C

129 Parts of this quadrant have experienced recent localised sea surface w

130 patients with two sites in the contralateral quadrants having probing depths (PDs) of >/=4 mm were se

131 retinal breaks, the most frequently involved quadrant in eyes with solitary breaks, and has the highe

132 n for a break, the least frequently involved quadrant in eyes with solitary breaks, and the most like

133 us displayed normal results for the temporal quadrant in non-ON eyes (P < .001).

134 was treated plus any additional teeth in the quadrant in which the site was located, if needed.

135 ment and adjacent jejunum in the left middle quadrant, increased density of the surrounding mesenteri

136 r (RNFL) thickness in the superior and nasal quadrants, increased RNFL in the temporal quadrant, and

137 Index of Treatment Needs teeth, and the four quadrants individually and combined in pairs were compar

138 The results divide the quadrant into two zones: a band around the Antarctic Cir

139 Asynchronous quadrant involvement supports a previously published mat

140 The VF analysis consisted of number of quadrant involvements and mean deviation (MD).

141 By contrast, the IN quadrant is the least likely location for a break, the l

142 The ST quadrant is the most likely location for retinal breaks,

143 Ischemia involving >/=2 quadrants is a risk factor for new vessel formation.

144 used adjunctively with SRP in contralateral quadrants (laser groups [LG]).

145 Neither the orbital quadrant location, nor the radiologic appearance (diffus

146 inoma was removed from the right upper outer quadrant, margins were free of tumor, and there was no a

147 x 3 x 2.9-cm contrast-enhancing right lower-quadrant mass arising from the wall of the ileum.

148 mm(2) [P = 0.21]) and nasal versus temporal quadrant (mean vascular loops, 2.89+/-0.98 vs. 3.57+/-0.

149 ere compared in the superior versus inferior quadrants (mean vascular loops, 3.34+/-1.16 vs. 3.12 +/-

150 demonstrated for participants with 2 or more quadrants meeting less than 5% (sensitivity = 93.3; spec

151 A three-dimensional quadrant model was built to represent the structural ori

152 ualization of "big data" by proposing a four-quadrant model.

153 le site test from the deepest pocket of each quadrant [MT4]; control).

154 e ultrasonographic presence of mass in all 4 quadrants (n = 17), representing oblique imaging of the

155 cleral spur (AOD500) were compared among the quadrants nasal, temporal, and inferior, and correlation

156 with Chinese ethnicity in nasal and temporal quadrants (nasal, OR: 3.1, temporal, OR: 4.8).

157 If the lipid arc >1 quadrant (obtuse) criterion was disregarded, 45 IVOCT TC

158 roinjection in the same anterior dorsomedial quadrant of a mu receptor agonist ([D-Ala2, N-MePhe4, Gl

159 Age, sex, race, type of ADD, quadrant of ADD placement, diagnosis of uveitis or dry e

160 ce that enkephalin surges in an anteromedial quadrant of dorsal neostriatum contribute to generating

161 was collected from the deepest site in each quadrant of each participant.

162 cubic-millimeter hotspot in the rostrodorsal quadrant of medial shell in nucleus accumbens (NAc) of r

163 or quadrant of OCA2 (0.945, 0.921), superior quadrant of OCA1 (0.890, 0.811), inferior quadrant of OC

164 uadrant of OCA3 (0.887, 0.854), and superior quadrant of OCA2 (0.879, 0.807).

165 rcular grid (OCA) 1 (0.959, 0.939), inferior quadrant of OCA2 (0.945, 0.921), superior quadrant of OC

166 or quadrant of OCA1 (0.890, 0.811), inferior quadrant of OCA3 (0.887, 0.854), and superior quadrant o

167 arly glaucoma patients were for the inferior quadrant of outer circumpapillary annulus of circular gr

168 ients with advanced age and pain in the left quadrant of the abdomen, diverticular disease causing mo

169 or cells within the anterior vitreous in the quadrant of the biopsy site.

170 e anatomically localized to the anteromedial quadrant of the dorsal neostriatum, whereas other quadra

171 ignificant dendritic atrophy in the superior quadrant of the hypertensive eyes.

172 architectural distortion in the upper outer quadrant of the left breast (Fig 1).

173 ion reveals a 1.5 cm mass in the upper outer quadrant of the left breast with no palpable axillary ly

174 associated calcifications in the upper outer quadrant of the left breast.

175 adenoma(s) (lateralization) and the correct quadrant of the neck (localization).

176 y simple light pressure over the upper outer quadrant of the right breast.

177 sing potential loss) on presence in the safe quadrant of the spatial grid.

178 f 1 iStent inject into the nasal or superior quadrant of the TM increased outflow facility from 0.16

179 yes and significant thinning in the inferior quadrant of Uv-H eyes with no evidence of disc or visual

180 ated lines converge at a point in a negative quadrant of van Krevelen space (e.g., H/C = 4, O/C = -1)

181 s from 3D volume scans were calculated for 4 quadrants of 3 different sized annuli.

182 tly contaminated anaerobic plates to primary quadrants of aerobic media during specimen planting yiel

183 = .8609), and inferior/temporal (P = .6662) quadrants of fellow eyes.

184 d lateral parts of lamina VII and the dorsal quadrants of lamina IX.

185 electromagnetic responses covering all four quadrants of possible permittivities and permeabilities

186 failure was significantly higher when all 4 quadrants of retina (4.4%) were detached than when only

187 l hemorrhage was more common with increasing quadrants of RRD.

188 ficantly higher in the temporal and inferior quadrants of the peripapillary sclera, which may contrib

189 from retinal explants derived from different quadrants of the retina.

190 ferences in efferent outputs from these four quadrants of the SPZ (dorsolateral, ventrolateral, dorso

191 e) and lower (lateral surface) contralateral quadrants of the visual field, consistent with anatomica

192 briefly-flashed dot (target) in each of the quadrants of the visual field.

193 16(O/C), which lies entirely in the negative quadrants of van Krevelen space.

194 ior trabecular meshwork not visible for >/=2 quadrants on non-indentation gonioscopy.

195 When comparing similar PV quadrants on the left versus right (eg, left carina vers

196 OCT TCFAs (fibrous cap <65 mum, lipid arc >1 quadrant), only 8 were true histological TCFA.

197 The corresponding accuracy for the correct quadrant or more specific site was 48% (95% CI, 27%-69%)

198 ormality and tortuosity present in each of 4 quadrants or sectors.

199 sac (odds ratio [OR] = 2.40) and left upper quadrant (OR = 1.19), mesenteric involvement (OR = 7.10)

200 presented a disc stimulus in the upper left quadrant, oscillating in luminance at different frequenc

201 is displayed normal results for the inferior quadrant (P < .05).

202 nce of peritoneal disease in the right upper quadrant (P = .0003), supradiaphragmatic lymphadenopathy

203 ss (p = 0.038), more evident in the superior quadrant (p = 0.006).

204 was significantly narrower than the superior quadrant (P = 0.0186) in the supine position.

205 )C-labeled, declining 5.5-fold per calcified quadrant (p=0.05, n=7).

206 degrees for the nasal, temporal and inferior quadrants (P < .001).

207 LDs per eye, larger deposits, and DLDs in >3 quadrants (P < .001, P = .03, P = .009, respectively).

208 rants with respect to only 6 in the inferior quadrants (p = 0.006).

209 bility in CF within and between different PV quadrants (P<0.05).

210 highest CF was at the superior and inferior quadrants (P<0.05).

211 d 1-3.3 mm in the study group (136 abdominal quadrants, P=0.502).

212 thioprine therapy presented with right upper quadrant pain and fever.

213 the liver on US in patients with right upper quadrant pain and jaundice.Detailed imaging by MRI/MRCP

214 ealthy 28-year-old man developed right lower quadrant pain while traveling.

215 Imaging due to right upper quadrant pain with fever and elevated inflammatory marke

216 performed in 2004 to investigate right lower quadrant pain.

217 right anterior oblique 30 was divided into 4 quadrants perpendicular to the lateral cardiac silhouett

218 Method concordance was assessed from a four-quadrant plot with a 15% zone of exclusion.

219 -Altman analysis, the percentage error, four-quadrant plot, and concordance analysis.

220 quently divide the map into four provisional quadrants, providing a possible framework for a further

221 One day after SRP, each quadrant randomly received one of the following treatmen

222 eated arteries where ablation involved all 4 quadrants, reached a depth of 9.1 mm, and affected 50% o

223 Contralateral quadrants received ECL using OF or FL techniques.

224 Disregarding the lipid arc >1 quadrant requirement enhances the ability of IVOCT to de

225 eronasal, superotemporal, and inferotemporal quadrant, respectively.

226 sponding to the lower and upper visual field quadrants, respectively.

227 The presence of an inferior (especially IN quadrant) retinal break should raise suspicion that the

228 for best-performing OCT parameter (inferior quadrant RNFL thickness); for POAG, sensitivity was 62%

229 7-78) for MMDT, and 83% (68-98) for inferior quadrant RNFL thickness.

230 ional measures from each algorithm (inferior quadrant RNFL vs minimum GCL/IPL) had comparable perform

231 ogic combination (minimum GCIPL and inferior quadrant RNFL; sensitivity, 64%; specificity, 100%; PLR,

232 d value of 4.97 for the second most tortuous quadrant, ROPtool's sensitivity was 91% and its specific

233 ection (FMD) within 24 hours or conventional quadrant scaling (QS) in four weekly sections.

234 ridement procedures in four weekly sections (quadrant scaling [QS]) or within 24 hours (full-mouth sc

235 a CT camera, is based on the photomultiplier-quadrant-sharing concept and comprises 180 blocks of 13

236 ferior and superior quadrants, and the nasal quadrant showed the latest and least changes.

237 Two diagonal quadrants showed better accuracy; RT had the worst, wher

238 Quadrants showed slightly higher variability in the manu

239 B-B-DL); 3) two randomly selected half-mouth quadrants (six sites/MB-B-DB/ MB-B-DL/MB-DB-ML-DL); and

240 ull-mouth (MB-B-DB/MB-B-DL); 2) two diagonal quadrants (six sites/MB-B-DB/MB-B-DL); 3) two randomly s

241 Global and quadrant-specific circumpapillary RNFL thickness measure

242 negative predictive value of the average and quadrant-specific RNFL thicknesses.

243 Thinning of the inferior quadrant suggests that glaucomatous damage, more than uv

244 Each subject underwent scans from 4 quadrants (superior, inferior, nasal, and temporal) in e

245 s were observed in the superior and inferior quadrants, supporting clinical observations for RNFL thi

246 ct all lipid arcs (both obtuse and acute, <1 quadrant) TCFA, and we also propose new mechanisms invol

247 a significantly higher thinning for temporal quadrant than Cirrus, suggesting that N-site axonal anal

248 re more commonly seen within the upper outer quadrants than are cancers in the general population.

249 CT was higher in the superior and temporal quadrants than the inferior and nasal quadrants.

250 R imaging identified 87 cancers in different quadrants than the known index cancer, constituting the

251 For localization according to quadrant, the accuracy was 86.6% (116 of 134).

252 on model that included GCC-FLV, inferior NFL quadrant thickness, age, and VF PSD.

253 uction of the average, superior and inferior quadrants thicknesses in the DOA4 group compared to the

254 In each quadrant, three dental implants were placed.

255 derived by using sectors of analysis of four quadrants, two lobes, and one whole prostate.

256 raphic data as well as right upper abdominal quadrant ultrasonography of 50 consecutive sickle cell a

257 ely for localization to the correct side and quadrant (upper and lower for each side), with surgical

258 All patients underwent right lower quadrant US and nonenhanced, nonsedated abdominopelvic M

259 in the center of the cornea and in 4 corneal quadrants using a Cochet-Bonnet esthesiometer (Luneau).

260 leads in the non-MS group were in the outer quadrant versus 9.6% in the MS group; P<0.001).

261 ants and OR, 18.4; 95% CI, 4.28-79.4 for 3-4 quadrants vs no preplus disease), stage 2 ROP (OR, 4.13;

262 lus (OR, 3.8; 95% CI, 1.5-9.7 for 4 pre-plus quadrants vs. no pre-plus), stage and zone of ROP (OR, 4

263 ommon type of iris insertion in the superior quadrant was basal insertion in both ethnic Chinese and

264 The temporal quadrant was first to be involved, then the inferior and

265 The superotemporal (ST) quadrant was involved most frequently (582 eyes; 69%).

266 The inferonasal (IN) quadrant was involved the least frequently (144 eyes; 17

267 e correlation between the temporal and nasal quadrant was R = 0.902 for TIA.

268 In the older cohort, the inferior quadrant was significantly narrower than the superior qu

269 Inferior quadrant was the best RNFL parameter (sensitivity, 74%;

270 The temporal quadrant was the most abnormal color coding by both Cirr

271 Ischemia involving >/=2 quadrants was associated with increased risk of new vess

272 esence of the lead in the middle or inferior quadrants was independently associated with correct mids

273 ior, and inferior temporal) and the temporal quadrant were calculated and compared to demographic par

274 aque samples from the deepest pocket of each quadrant were collected from 43 patients with CP and 33

275 Masked clinical assessments of each laser quadrant were made at admission and days 7, 30, and 180

276 outh study design in which the teeth in each quadrant were randomly treated by scaling and root plani

277 ples included dentures) in randomly selected quadrants were collected after 1, 2, 4, and 7 days of no

278 Quadrants were equally divided between the right and lef

279 The superonasal and inferotemporal quadrants were involved in 341 (40%) and 274 (32%) eyes,

280 histopathologic evaluation, 84 of 252 (33%) quadrants were positive for cancer in 38 of 63 (60%) men

281 -masked trial used a split-mouth design, and quadrants were randomized to receive either laser or cya

282 Quadrants were randomly distributed into two groups: cya

283 Maxillary or mandibular left or right quadrants were randomly subjected to photoablative deepi

284 ant of the dorsal neostriatum, whereas other quadrants were relatively ineffective.

285 and the thickness of each of the 90 degrees quadrants were significantly thinner in people with epil

286 iting >/=3 intraosseous defects in different quadrants, were each treated by OFD, EMD, or EMD + HA/be

287 sal iris insertion in the nasal and temporal quadrants when compared with Caucasians, even after adju

288 e right PVs (P<0.05), except at the superior quadrant where CF was similar in the left and right PVs

289 mics is the science of their map's northwest quadrant, where choice is individual and transparent.

290 left PV sites was at the carina and anterior quadrant, whereas highest CF was at the superior and inf

291 nnest (110.71 +/- 51.61 mum) at the inferior quadrant, whereas RNFL was thickest (118.60 +/- 19.83 mu

292 t eyes was thicker in the temporal and nasal quadrants, whereas the left eyes showed thicker RNFL in

293 al inflammatory grade of >/=1+ in at least 1 quadrant with a history of flares were enrolled.

294 the first image session including number of quadrants with pre-plus (OR, 3.8; 95% CI, 1.5-9.7 for 4

295 5 for </=24 weeks vs >/=28 weeks), number of quadrants with preplus disease (OR, 7.12; 95% CI, 2.53-2

296 eyes presented retinal tears in the superior quadrants with respect to only 6 in the inferior quadran

297 distance [AOD750]) and angle opening (all 4 quadrants with trabecular meshwork [TM] visible on gonio

298 ity of 74% was recorded in the inferior RNFL quadrant (with an area under the ROC curve of 0.806) fin

299 egrees for the nasal, temporal, and inferior quadrants, with no differences (P = 1.000).

300 biases for the contralateral upper and lower quadrant within the ventral and lateral scene-selective