ライフサイエンスコーパス: strabismus

1 ers (one study overlap between amblyopia and strabismus).

2 istance VA or near stereoacuity, or manifest strabismus).

3 hberg corneal reflex test to detect manifest strabismus.

4 atism, and hyperopia are more likely to have strabismus.

5 Association for Pediatric Ophthalmology and Strabismus.

6 ving each eye were shifted to compensate for strabismus.

7 loss and bilateral ametropic amblyopia with strabismus.

8 retinopathy of prematurity were affected by strabismus.

9 otropia in certain patients with restrictive strabismus.

10 ty 2 months following surgical correction of strabismus.

11 ts who have undergone surgical correction of strabismus.

12 use they are less conjugate in patients with strabismus.

13 ual factors that may alter the perception of strabismus.

14 eligible children (1.1%) were diagnosed with strabismus.

15 exotropia, and 2 participants had paralytic strabismus.

16 VA) and cover testing ruled out amblyopia or strabismus.

17 extraocular muscles that caused restrictive strabismus.

18 en with refractive errors, amblyopia, and/or strabismus.

19 cerns about the social significance of their strabismus.

20 (1.37%) had amblyopia, and 1125 (1.76%) had strabismus.

21 rabismus; only 1 was microvascular paralytic strabismus.

22 se alternative to the manual measurements of strabismus.

23 er eye alone, is diminished in patients with strabismus.

24 onal benefit from the surgical correction of strabismus.

25 scle strengthening is a common treatment for strabismus.

26 onships of BW and GA with the development of strabismus.

27 itoring of premature infants with low BW for strabismus.

28 ients required further surgery for ptosis or strabismus.

29 mpared between participants with and without strabismus.

30 below age norms, or development of manifest strabismus.

31 uity (VA), reduced stereoacuity, or manifest strabismus.

32 st commonly significant refractive error and strabismus.

33 The most frequent side effect was transient strabismus.

34 than the fixating eye of individuals without strabismus (0.98 log units; 95% CI, 0.88-1.08) (P < .005

35 l-peripheral rivalry-type diplopia), 7 (28%) strabismus (1 of 7 initally appeared to have central-per

36 ally significant change in the prevalence of strabismus (1.73%-2.24%, P = .91) or amblyopia (0.9%-2.0

37 ossly impaired stereo-vision, 1.5% exhibited strabismus, 1.8% were suspected to have amblyopia and 0.

38 enes implicated in optic atrophy and complex strabismus (10 genes).

39 ast 1 reported disorder of binocular vision (strabismus, 2.3%; diplopia, 2.2%; amblyopia, 0.9%; and n

40 criteria, with 39 of 40 able to exceed Adult Strabismus-20 95% limits of agreement.

41 ts of agreement on at least 1 of the 4 Adult Strabismus-20 domains (54% vs predicted 10% by chance al

42 Each of the 4 Adult Strabismus-20 domains (self-perception, interactions, re

43 ts of agreement on at least 1 of the 4 Adult Strabismus-20 domains.

44 preoperative and 1-year-postoperative Adult Strabismus-20 HRQOL questionnaires, were included.

45 a and Strabismus Questionnaire and the Adult Strabismus-20, reveal improvements in adults following s

46 abismus decreased compared with preoperative strabismus (30.8 +/- 10.8 PDs; n = 28), strabismus at 2-

47 Orthoptic abnormalities included strabismus (40%), abnormal stereopsis (44%), and limited

48 Nystagmus (64%), strabismus (52%), macular degeneration (72%), optic nerv

49 group with 'purely' acquired causes (N = 80) strabismus (88% versus 64%), pale optic discs (65% versu

50 for the population without amblyopia and/or strabismus (96.0% of all students) was 16.8 +/- 0.6, i.e

51 In patients without significant strabismus, a full Kestenbaum procedure was successful,

52 Association for Pediatric Ophthalmology and Strabismus (AAPOS) criteria for amblyopia risk factors.

53 Association for Pediatric Ophthalmology and Strabismus (AAPOS) provider locations were geocoded usin

54 Strabismus affected approximately 1 of 10 patients diagn

55 Prevalence of strabismus also was similar (P=0.12), ranging from 1.0%

56 Association for Pediatric Ophthalmology and Strabismus amblyopia risk factors with 68% (965/96) sens

57 Of the 804 without strabismus, amblyopia or organic conditions, 6.0% were m

58 nfluence that disorders of binocular vision (strabismus, amblyopia, diplopia, and nystagmus) may have

59 managing moderate hyperopia without manifest strabismus among 1- and 2-year-old children: (1) immedia

60 The prevalence of strabismus among infants with pseudostrabismus in this c

61 congenital or acquired paralytic or comitant strabismus and 17 healthy volunteers.

62 Specificity of the PVS for strabismus and amblyopia (0.87; 95% CI, 0.80-0.95) was s

63 development and the development of forms of strabismus and amblyopia.

64 eye and the nonfixating eye in patients with strabismus and control individuals, quantified by the lo

65 there was no significant association between strabismus and GA (HR, 0.98; 95% CI, 0.69-1.38).

66 be used to quantify and transiently simulate strabismus and holds promise as a method to augment exis

67 tudy investigates the prevalence of manifest strabismus and its subtypes in adulthood and analyzes th

68 n preschool children, with family history of strabismus and maternal smoking during pregnancy more st

69 isual acuity (VA) were analyzed, and rate of strabismus and nystagmus at last follow-up visit were ca

70 g within published literature for amblyopia, strabismus and ocular motility and it generated an item

71 icating the different subtypes of amblyopia, strabismus and ocular motility disorders in relation to

72 easures from published studies in amblyopia, strabismus and ocular motility disorders to initiate the

73 es reporting outcome measures for amblyopia, strabismus and ocular motility disorders.

74 tcomes following cataract, cornea, glaucoma, strabismus and oculoplastics procedures were reported.

75 advantage of simultaneous correction of both strabismus and ptosis through a single procedure.

76 ents who presented with atypical restrictive strabismus and reduced eye movements.

77 Association for Pediatric Ophthalmology and Strabismus and the American Academy of Pediatrics (AAP)

78 ll ends, the four-pass transmembrane protein Strabismus and the cytoplasmic protein Prickle localize

79 sion, awareness of postoperative restrictive strabismus and the potential for correction is critical.

80 he relationship between head positioning and strabismus and then modifying surgery accordingly.

81 f this study was to assess the prevalence of strabismus and to analyse associated factors in former p

82 were even possible in patients with comitant strabismus and visual suppression.

83 The PVS identified children with strabismus and/or amblyopia with high sensitivity, outpe

84 -eight had surgical dose modified to correct strabismus, and 3 underwent surgery different from stand

85 tudies were included; 42 in amblyopia, 33 in strabismus, and 68 in ocular motility disorders (one stu

86 Developmental delay, strabismus, and amblyopia were common in this cohort.

87 on Lancaster red-green testing, a V-pattern strabismus, and bilateral fundus extorsion.

88 nt5 and the PCP signaling proteins Frizzled, Strabismus, and Dishevelled act in concert with the smal

89 entral-peripheral rivalry-type diplopia) and strabismus, and for 4 (16%) diplopia cause was indetermi

90 lmologic findings such as refractive errors, strabismus, and fundus abnormalities are frequent in chi

91 le surgeries may be necessary to improve the strabismus, and it is unlikely that orthotropia will be

92 To analyze the long-term visual acuity, strabismus, and nystagmus outcomes in Group D retinoblas

93 Amblyopia, strabismus, and refractive errors are common in young ch

94 Visual acuity, manifest strabismus, and refractive errors were evaluated.

95 utcome measure domains for amblyopia, 14 for strabismus, and ten common "visual or motility" outcome

96 erebellar ataxia, subtle facial dysmorphism, strabismus, and vesicoureteric reflux, suggesting that E

97 d head positioning, duction limitations, and strabismus, and were evaluated several times postoperati

98 eing a risk factor for worse vision; 60% had strabismus; and 22% had nystagmus.

99 00, mean approximately 20/63) resulting from strabismus, anisometropia, or both were enrolled into a

100 1% to 6% have amblyopia or its risk factors (strabismus, anisometropia, or both).

101 (20/40 to 20/200, mean 20/63) resulting from strabismus, anisometropia, or both.

102 liculus.SIGNIFICANCE STATEMENT Patients with strabismus are able to make rapid eye movements, known a

103 Manual measurements of strabismus are subjective, time consuming, difficult to

104 The most common type of strabismus associated with binocular diplopia due to gla

105 f late (>= 1 month) consecutive or recurrent strabismus associated with underaction of the previously

106 tive strabismus (30.8 +/- 10.8 PDs; n = 28), strabismus at 2-5 months (9.1 +/- 11.9 PDs; P = .0001; n

107 184 infants were subsequently diagnosed with strabismus at a mean age of 4.5 years (range: 1.3 to 8.7

108 s in the endosomal recycling of Flamingo and Strabismus back to the plasma membrane and thus contribu

109 Understanding the criteria for when strabismus becomes detectable by non-health care profess

110 e acuity, adverse events, refractive growth, strabismus, binocular function, and need for additional

111 pact factor than GA on visual impairment and strabismus, but not on refractive errors, as a whole.

112 agement of stretched scar -induced secondary strabismus by excision of the stretched scar and muscle

113 disability, developmental delay, hypotonia, strabismus, cerebellar atrophy, and variable short statu

114 e enrolled in this study, conducted at adult strabismus clinics, Department of Ophthalmology, Mayo Cl

115 ional patients with ERM, selected from adult strabismus clinics, was added (total = 56) to determine

116 ere used to identify children diagnosed with strabismus (code 378.xx).

117 with infantile nystagmus syndrome (INS) when strabismus coexists, and few outcome data have been publ

118 VRQoL was lower in participants with strabismus compared with participants without strabismus

119 rt study, we found a cumulative incidence of strabismus consistent with those reported in smaller Eur

120 The rate of strabismus correction was 4 in 10 patients (40%).

121 The magnitude of strabismus decreased compared with preoperative strabism

122 In both states, the proportion receiving a strabismus diagnosis among black (0.9% in Michigan; 0.7%

123 to determine the risk of a child receiving a strabismus diagnosis in communities throughout Michigan

124 on of locations with increased and decreased strabismus diagnosis risk relative to other communities

125 ldren in Michigan, 7535 (1.5%) received >/=1 strabismus diagnosis, and in North Carolina, 5827 of 523

126 BFM-90 reduced the recurrence of strabismus, diplopia, and proptosis, but did not correct

127 ocalization is promoted by the core proteins Strabismus, Dishevelled, Prickle, and Diego.

128 with late secondary consecutive or recurrent strabismus due to stretched scar from 2012 to 2017.

129 In subjects with alternating strabismus, either eye can be used to saccade to visual

130 In patients with strabismus, even without amblyopia, the deviated eye is

131 ck, white, and Asian) were simulated to have strabismus from esotropia of 21 prism diopters () to exo

132 reliably estimated constant and intermittent strabismus higher than 10 PD.

133 ith mild intellectual impairment, convergent strabismus, horizontal gaze palsy, and bilateral abducen

134 Strabismus impacts quality of life through both function

135 of control individuals, which indicates that strabismus impairs the ability to fixate targets steadil

136 lopmental delay was diagnosed in 31 (43.6%), strabismus in 25 (35.2%), and amblyopia in 10 (14.1%).

137 trabismus compared with participants without strabismus in adjusted analysis (B = -5.96, P < 0.001).

138 y to surgically improve head positioning and strabismus in cases of moderate to severe baseline head

139 evidence regarding the surgical approach of strabismus in children with various forms of development

140 of the system in determining the presence of strabismus in children, as well as its type and the amou

141 the most common form of congenital paralytic strabismus in humans and can result from alpha2-chimaeri

142 ived neurotrophic factor (GDNF) to produce a strabismus in infant non-human primates was tested.

143 collating most of the associated factors for strabismus in one analysis.

144 n create the clinical patterns of incomitant strabismus in SO palsy.

145 nal levels of the core proteins Flamingo and Strabismus in the developing wing.

146 loss of phosphorylation of the core protein Strabismus in the Drosophila pupal wing increases its st

147 1 in 6 adults who were newly diagnosed with strabismus in this 20-year cohort.

148 outcomes included repeat surgery and induced strabismus, in addition to failure of collapse of AHP.

149 re have been few population-based studies of strabismus incidence conducted.

150 We found an overall cumulative strabismus incidence of 2.56% (95% CI, 2.42-2.69) at 7 y

151 states were less likely to be diagnosed with strabismus independent of their race/ethnicity.

152 We propose classifying strabismus into concordant or discordant based on the re

153 Current treatments for strabismus involve ocular alignment through surgical or

154 Strabismus is a frequent chronic eye condition that is a

155 Strabismus is a prevalent impairment of binocular alignm

156 A child's likelihood of being diagnosed with strabismus is associated with characteristics of the res

157 ing for X(T) were the proportion of time the strabismus is manifest and parents' views.

158 ers to make a positive determination whether strabismus is present.

159 d, including amblyopia, myopia, astigmatism, strabismus, limited ocular motility, prominent corneal n

160 white race and ethnicity, family history of strabismus, maternal smoking during pregnancy, and being

161 t meaningfully affect vertical or horizontal strabismus measurements in adults.

162 To determine the effect of dilating drops on strabismus measurements in adults.

163 Only records with strabismus measurements recorded in the right and left g

164 (the difference between right- and left-gaze strabismus measurements) before and after surgery.

165 phosphorylation acts as a switch, promoting Strabismus mobility and Dishevelled immobility, thus enh

166 f 20 (60%) bilaterally salvaged patients had strabismus (n = 10 exotropia and n = 2 esotropia).

167 Despite strabismus, neurons remained responsive to stimulation o

168 children needed ocular surgery for cataract, strabismus, nystagmus, ptosis, or nasolacrimal duct obst

169 nstituting 15.7% of all forms of adult-onset strabismus observed in this population.

170 Strabismus occurred in 1 of 5 children diagnosed with an

171 isual acuity (VA), refraction, stereoacuity, strabismus, ocular media, and fundus were investigated.

172 gnosed with simple congenital ptosis and had strabismus, of which there were 4 (4.9%) cases of exotro

173 er degree, concerns around the impact of the strabismus on their child's vision.

174 Of the 300 patients, 188 had strabismus only, amblyopia only, or both, and 112 had no

175 A total of 19 children had strabismus; only 1 was microvascular paralytic strabismu

176 e of an ophthalmologic diagnosis (amblyopia, strabismus, optic neuropathy, nystagmus, or retinopathy

177 nly, amblyopia only, or both, and 112 had no strabismus or amblyopia.

178 aca nemestrina) made amblyopic by artificial strabismus or anisometropia in early life, as well as tw

179 ng children with amblyopia risk factors (eg, strabismus or anisometropia), patching improved visual a

180 inal misregistration may also have treatable strabismus or optical/refractive error as the primary ba

181 visual problems, such as visual impairment, strabismus, or major refractive error.

182 normal distance VA or stereoacuity; manifest strabismus; or strabismus surgery during follow-up.

183 ermine the incidence and age distribution of strabismus, overall and by subtype, among children 7 yea

184 incidence and median age at the detection of strabismus, overall and by subtype.

185 Presence of strabismus (P<0.0001) and greater magnitude of significa

186 ' genetic CVI, the ocular variables (such as strabismus, pale optic disc and visual field defects) we

187 Both methods reproduced the characteristic strabismus patterns in the 9-point grid.

188 palsy and whether displacements account for strabismus patterns.

189 tions, and that Prickle negatively regulates Strabismus phosphorylation.

190 s in an academic pediatric ophthalmology and strabismus practice from July 25, 2005, through March 28

191 s in an academic pediatric ophthalmology and strabismus practice with a complete lateral rectus palsy

192 e at an academic pediatric ophthalmology and strabismus practice.

193 visual acuity in the worse eye was linked to strabismus prevalence.

194 Children under age 18 years having strabismus procedures between 2007 and 2013.

195 y during the same period, the mean number of strabismus procedures per surgeon grew from 16.2 to 55.3

196 Of 11 115 children having strabismus procedures, 851 (7.7%) underwent reoperation.

197 s-specific questionnaires, the Amblyopia and Strabismus Questionnaire and the Adult Strabismus-20, re

198 e 31-44 degrees ; and severe >=45 degrees ), strabismus (range 0-70 prism diopters [PDs]; minimal <=1

199 han those in previous reports and similar to strabismus rates reported in the same population.

200 normally localises to opposite cell edges to Strabismus - reduces its stability at junctions.

201 g conveyed a 14-fold increase in the risk of strabismus relative to BW of 2000 g or more (HR, 14.39;

202 no additional increased risk for developing strabismus relative to infants born after 32 weeks (HR,

203 the study period, the rates of amblyopia and strabismus remained stable, indicating the need for cont

204 A, very low BW conferred a large increase in strabismus risk among premature infants.

205 s and management of consecutive or recurrent strabismus secondary to stretched scar.

206 Atypical presentations of strabismus should be investigated for systemic condition

207 s seen on initial screening examination were strabismus, significant refractive error, and eyelid abn

208 A chart review was performed jointly by a strabismus specialist and a glaucoma subspecialist to ch

209 n ERM, who had been seen by both retinal and strabismus specialists in a tertiary medical center.

210 Two strabismus-specific questionnaires, the Amblyopia and St

211 th anterior localization of Prickle (Pk) and Strabismus (Stbm).

212 , refractive error, binocular eye alignment (strabismus), stereoacuity, and postural stability (imbal

213 erning organizations may need to account for strabismus subspecialization when designing curriculum a

214 all exotropia revealed interactions between strabismus subtype and age, suggesting that the differen

215 s of incidence by age differed for different strabismus subtypes, indicating differences in age at on

216 Retrospective chart review of strabismus surgeries performed between July 1, 2008, and

217 ble in identifying EOM insertions in primary strabismus surgeries, but the accuracy decreases in reop

218 modenervation group") or standard incisional strabismus surgery ("surgery group").

219 ources decisions to ensure access to quality strabismus surgery across regions.

220 However, it is still not known how strabismus surgery affects BiS.

221 ion procedure was not inferior to incisional strabismus surgery at 6 months.

222 Adults aged 18-89 having strabismus surgery between 2007 and 2011.

223 Pediatric strabismic patients who underwent strabismus surgery between 2010 and 2015.

224 Prospective study of 97 patients undergoing strabismus surgery between September 1, 2011, and Januar

225 Asymmetric strabismus surgery can treat incomitant deviations, but

226 of mental illness among those who underwent strabismus surgery compared with those who did not.

227 percentage of ophthalmologists who provided strabismus surgery decreased from 37.7% (156 of 414 surg

228 application at the end of adjustable suture strabismus surgery decreases the suture colonization rat

229 VA or stereoacuity; manifest strabismus; or strabismus surgery during follow-up.

230 Of ophthalmologists who provided strabismus surgery during the same period, the mean numb

231 cal records of healthy children who received strabismus surgery for accommodative esotropia with hype

232 Strabismus surgery for esotropia with high hypermetropia

233 eterioration had occurred previously), or if strabismus surgery had been performed.

234 Strabismus surgery has evolved into a subspecialized fie

235 Adults undergoing strabismus surgery in a single clinical practice, with p

236 ng-term studies with larger sample sizes for strabismus surgery in children with developmental delay

237 tor outcomes and the inferential analysis of strabismus surgery in infant eyes with essential infanti

238 e whether botulinum toxin is as effective as strabismus surgery in the treatment of acute-onset comit

239 uture colonization rate in adjustable suture strabismus surgery is not well defined, and the effect o

240 Asymmetric horizontal strabismus surgery is often performed to correct primary

241 Seventy-four adult patients scheduled for strabismus surgery on rectus muscles.

242 tative HRQOL criteria into the assessment of strabismus surgery outcomes, defining success as either

243 idone-iodine at the end of adjustable suture strabismus surgery reduces the suture colonization rate.

244 bifocal group had a 3.6-fold higher rate of strabismus surgery than children in the single-lens grou

245 operative times suggests that efficiency in strabismus surgery varies by assistants with less experi

246 age duration between spectacle correction to strabismus surgery was 21.8 months.

247 ation between onset of constant esotropia to strabismus surgery was 28.1 months.

248 similar adults undergoing adjustable suture strabismus surgery were studied.

249 Adjustable- or fixed-suture strabismus surgery, or botulinum toxin injection.

250 R contracture, extensive scarring from prior strabismus surgery, or inadequate splitting of the LR mu

251 tive assessment of adult patients undergoing strabismus surgery.

252 d $874 per procedure compared with $2783 for strabismus surgery.

253 Adjustable vs conventional suture strabismus surgery.

254 e recruited within 1 month before undergoing strabismus surgery.

255 postoperatively in most patients undergoing strabismus surgery.

256 Surgeon-level rates of strabismus surgery.

257 Three patients underwent strabismus surgery.

258 The medical records of 1081 horizontal strabismus surgical procedures that were performed at Bo

259 specialization has affected the provision of strabismus surgical services.

260 Unraveling the genetics of the paralytic strabismus syndromes known as congenital cranial dysinne

261 In strabismus, the fixating eye conveys the direction of ga

262 For association analysis with strabismus, the following data was collected and include

263 In the 25 patients with strabismus, the mean (SD) age was 28 (14) years (range,

264 In the patients with strabismus, the mean position variability (1.80 log unit

265 For horizontal strabismus, the postoperative abnormal binocularity rate

266 The threshold angle for detecting strabismus to enable 70% of lay observers to make a posi

267 nts alone could cause patterns of incomitant strabismus typical of SO palsy, without requiring any ab

268 Patients aged 18 and older with strabismus underwent a standard evaluation of ocular mot

269 patients with INS and coexisting horizontal strabismus underwent surgery for horizontal head positio

270 e superior colliculus of awake primates with strabismus using a combination of single-cell recordings

271 of a novel, simplified, noninvasive test for strabismus using video goggles.

272 In contrast to Hess screen testing, strabismus video goggle measurements were even possible

273 There was good agreement between the strabismus video goggles and the Hess screen test in the

274 e positions of each eye were measured by the strabismus video goggles and the Hess screen test.

275 comparison study in which the new test, the strabismus video goggles, is compared with the existing

276 of any diplopia (retinal misregistration vs strabismus vs optical/refractive error).

277 %), and the point prevalence for concomitant strabismus was 2.5% (2.3%-2.8%).

278 The weighted prevalence of ever having strabismus was 2.9% (2.6%-3.2%), and the point prevalenc

279 Concomitant strabismus was associated with age 65 to 69 years (odds

280 In the multivariable regression model strabismus was associated with GA (OR = 0.84 per week; p

281 Vertical strabismus was compensated mainly by significant contrac

282 Strabismus was diagnosed in 20 (18.7%) of the 107 patien

283 Strabismus was found in 17.4% (68 of 390) and refractive

284 Divergent strabismus was found in 4 participants with greater fiel

285 : 49.21%; BT-Cat: 20.00%; P < .001), whereas strabismus was more pronounced in the US-Cat group (US-C

286 The fixating eye of patients with strabismus was more variable in position than the fixati

287 stereoacuity was below age norms or manifest strabismus was observed (each with and without correctio

288 oston, Massachusetts, who were asked whether strabismus was present.

289 ol children, the prevalence of amblyopia and strabismus was similar among 5 racial/ethnic groups.

290 The incidence of strabismus was similar with all treatments.

291 dostrabismus and the subsequent diagnosis of strabismus were assessed.

292 prevalence and point prevalence of manifest strabismus were computed, and VRQoL was compared between

293 ity, refraction in cycloplegia, and manifest strabismus were evaluated and compared with GA at birth

294 Patients with any other reason for strabismus were excluded.

295 6 recurrent cases of stretched scar -induced strabismus were identified and all cases were associated

296 Overall, 1309 cases of strabismus were identified in the cohort.

297 The 4 most common types of new-onset strabismus were paralytic (44.2% of cases), convergence

298 of the eye are independent risk factors for strabismus, while the other factors show less independen

299 category, including 2 siblings with comitant strabismus who harbored a HOXB1 mutation.

300 Children below 12 years old with horizontal strabismus who underwent surgical correction by recessio