ライフサイエンスコーパス: exotropia

1 3 to 8.7 years) (7 with esotropia and 2 with exotropia).

2 s, 954,921 controls) and subtypes (esotropia/exotropia).

3 causal agents for esotropia and intermittent exotropia.

4 suggested for the correction of intermittent exotropia.

5 ssful surgical results at POM2 for secondary exotropia.

6 tory patients with a history of intermittent exotropia.

7 hthalmologist for evaluation of intermittent exotropia.

8 ion preference in patients with intermittent exotropia.

9 ecession in young children with intermittent exotropia.

10 ss-resection operation is planned to correct exotropia.

11 risk in strabismic patients, particularly in exotropia.

12 ere diagnosed with esotropia, 37 (50.7%) had exotropia.

13 cal alternative for small and moderate-angle exotropia.

14 up to 12 hours to document the occurrence of exotropia.

15 pia, and 181 (13.8%) (95% CI, 12.0-15.8) had exotropia.

16 sotropia and 16.3 (95% CI, 15.5 to 17.2) for exotropia.

17 sotropia and 13.5 (95% CI, 12.5 to 14.6) for exotropia.

18 ate cohort of 379 patients with intermittent exotropia.

19 treat moderate-angle recurrent or persistent exotropia.

20 cal procedures for treatment of intermittent exotropia.

21 life specific to children with intermittent exotropia.

22 ns was equally divided between esotropia and exotropia.

23 tus resection for treatment of esotropia and exotropia.

24 rth, ending with approximately 10 degrees of exotropia.

25 trabismus surgery for childhood intermittent exotropia.

26 ation of suppression scotomas in humans with exotropia.

27 mapped binocularly in 14 human subjects with exotropia.

28 monocular viewing in strabismic monkeys with exotropia.

29 nly 0.5% (2/371) children developed constant exotropia.

30 bismus: esotropia (0.91, 95% CI: 0.88-0.94), exotropia (0.82, 95% CI: 0.80-0.85), and hypertropia (0.

31 %) compared with patients with esotropia and exotropia (10.2% and 9.6%, respectively).

32 Seven (39%) patients had exotropia, 11(61%) had esotropia (P = 0.346) and vertica

33 ication was present in 6.0% of patients with exotropia (14 of 234; P = .08), a similar proportion to

34 CI, 13.2 to 15.7) being lower than that for exotropia (20.9; 95% CI, 18.0 to 24.6) (P < .001).

35 Diagnoses included esotropia (17.8%), exotropia (21.8%), hypertropia (13.5%), and paralytic st

36 Overminus Spectacle Therapy for Intermittent Exotropia, 223 (57.8%) consented to 18 months of additio

37 recession in the treatment of moderate-angle exotropia ( 25 PD (prism diopters)) in children.

38 mm) was performed for similar magnitudes of exotropia (32.8 [14.2] PD for plication, 31.2 [15.6] PD

39 ication was present in 1.7% of patients with exotropia (4 of 234; P = .40), a similar proportion to t

40 ents (50%) had V-pattern esotropia, 12 (30%) exotropia, 4 (10%) orthotropic and four (10%) had Dissoc

41 ly different, for treatment of diplopia from exotropia (64%, 95% CI 43%-80%; P = .184).

42 ication was present in 3.0% of patients with exotropia (7 of 234; P = .10), a similar proportion to t

43 re likely to have constant (vs intermittent) exotropia (70% vs 29%; difference, 41%; 95% CI, 20.8%-61

44 instrument for determining how intermittent exotropia affects health-related quality of life of chil

45 Peak velocity was also proportional to exotropia amplitude.

46 ismus, of which there were 4 (4.9%) cases of exotropia and 4 (4.9%) cases of esotropia.

47 Patients were included if they have both exotropia and aberrant regeneration with a ptosis that i

48 % CI, 2.66-2.74) for the association between exotropia and anxiety disorder.

49 for quantifying the severity of intermittent exotropia and for defining more precisely its clinical f

50 oderate correlation between the magnitude of exotropia and its occurrence (r = 0.59).

51 orizontal deviation was 68 prism diopters of exotropia and median postoperative horizontal deviation

52 and cognitive deficits, often accompanied by exotropia and movement disorders.

53 lly salvaged patients had strabismus (n = 10 exotropia and n = 2 esotropia).

54 e recurrent deviations in the form recurrent exotropia and recurrent hypertropia were corrected by me

55 s (P = .0091), and convergence insufficiency exotropia and recurrent or consecutive strabismus had hi

56 uality of life of children with intermittent exotropia and their parents, particularly for cohort stu

57 eeks, each animal was chaired to measure its exotropia and to determine its ocular fixation preferenc

58 ed larger firing rates for smaller angles of exotropia) and far-response (cells that showed lower fir

59 from four animals with divergent strabismus (exotropia) and four with convergent strabismus (esotropi

60 ) on a scale of 0 (exophoria) to 5 (constant exotropia) and spherical equivalent refractive error bet

61 ion between the type of deviation (esotropia/exotropia) and/or the surgical procedure (recession/rese

62 Esotropia was twice as frequent as exotropia, and 2 participants had paralytic strabismus.

63 smus: 17.7% (15/85) esotropia, 22.4% (19/85) exotropia, and 5.9% (5/85) vertical strabismus.

64 focus on congenital esotropia, intermittent exotropia, and adult strabismus.

65 ion between each strabismus type (esotropia, exotropia, and hypertropia) and anxiety disorder, schizo

66 vertical duction, variable ophthalmoplegia, exotropia, and paradoxical abduction in infraduction.

67 cclusion in infancy, and one had "A"-pattern exotropia artificially induced by prism wear.

68 ere measured in two monkeys with AMO-induced exotropia as they performed a visually guided saccade ta

69 ecorded from SOA neurons in two monkeys with exotropia as they performed eye movement tasks during mo

70 nucleus were recorded from two monkeys with exotropia as they performed horizontal and vertical smoo

71 leus neurons in three animals with A-pattern exotropia as they performed horizontal or vertical smoot

72 romosomes 2, 4, and 10 were risk factors for exotropia as well as esotropia.

73 ytic and vertical strabismus, esotropia, and exotropia, as defined by International Classification of

74 ng criteria: (1) IXT at distance OR constant exotropia at distance and either IXT or exophoria at nea

75 we raised two male monkeys with alternating exotropia by disinserting the medial rectus muscle in ea

76 ng was examined in four macaques raised with exotropia by disinserting the medial rectus muscles shor

77 hing perception in subjects with alternating exotropia by suppression of each eye's peripheral tempor

78 wed lower firing rates for smaller angles of exotropia) cells were identified.

79 Overminus Spectacle Therapy for Intermittent Exotropia cohort, which previously randomized children a

80 .001 and P <= 0.001, respectively), distance exotropia control (mean improvement, 0.6 points; P <= 0.

81 17.0 Delta at near (P = 0.10); 6-month mean exotropia control scores were 2.8 versus 2.3 points at d

82 effect of overminus lens therapy on distance exotropia control was not maintained after treatment was

83 n 3 to 10 years of age had improved distance exotropia control when assessed wearing overminus specta

84 ant exotropia over 3 years was uncommon, and exotropia control, stereoacuity, and magnitude of deviat

85 Whether esotropia or exotropia develops in the presence of these duplications

86 responses of 575 patients with intermittent exotropia enrolled from May 15, 2008, through July 24, 2

87 not infrequent in patients with intermittent exotropia, especially in the most exo-deviated eye, emph

88 Forty patients with recurrent or persistent exotropia following bilateral lateral rectus muscle rece

89 utcomes for 2 surgeons treating esotropia or exotropia for diplopia control or reconstructive goals w

90 retrospectively evaluated 6159 patients with exotropia from 2012 to 2022 in Farabi Eye Hospital, Tehr

91 In children with moderate angle exotropia, good postoperative success rate was achieved

92 ilies reported an occurrence of intermittent exotropia greater than that measured by the eye tracking

93 d by the APCT (mean = 4.65 PD), while in the exotropia group, the amount of ocular deviation measured

94 group and 0.862 (range: 0.651-0.950) in the exotropia group.

95 re 6.62 PD and 11.25 PD in the esotropia and exotropia groups, respectively.

96 r surgery, none of the patients had residual exotropia >10 prism diopters.

97 defined as meeting motor criterion (constant exotropia >=10 prism diopters [Delta] at distance and ne

98 The medical records of 54 large angle exotropia >=40 PD patients aged from 1 to 18 years who w

99 Beneficiaries with exotropia had a 170% increased odds of POAG (aOR: 2.70;

100 suggest that primary surgery in adults with exotropia has a more successful outcome with AS surgery.

101 s support the possibility that esotropia and exotropia have shared genetic risk factors.

102 ubsequent classification (normal, esotropia, exotropia, hypertropia, hypotropia), with refined classi

103 Exotropia improved from a preoperative angle of 21.4 4.0

104 in 2 eyes (1%); cataract in 1 eye (1%); and exotropia in 1 eye (1%).

105 ismus was infantile-onset: esotropia in 54%, exotropia in 26%, and dyskinesia in 10%.

106 n 58 (92.1%), anisometropia in 2 (3.2%), and exotropia in 3 patients (4.8%).

107 was easier for lay observers to detect than exotropia in Asian models, and exotropia was easier to d

108 The outcome of monocular surgery for sensory exotropia in children is satisfactory with no significan

109 19 years of age) diagnosed with intermittent exotropia in Olmsted County, Minnesota, from January 1,

110 and surgical outcomes of large angle sensory exotropia in pediatric patients.

111 Successful motor alignment was seen in both exotropia (in 3 studies that were not limited to childre

112 The Kaplan-Meier rate of exotropia increasing over time by 7 PD or more at near w

113 Loss of fusion in intermittent exotropia is not influenced by visual feedback.

114 Patients with intermittent exotropia (IXT) have a wide range of binocular deficits.

115 The pathogenesis of intermittent exotropia (IXT) remains unclear.

116 cle treatment for children with intermittent exotropia (IXT).

117 cal treatment for children with intermittent exotropia (IXT).

118 ctacle therapy for treatment of intermittent exotropia (IXT).

119 19.89, -12.78 PD) and 17.15 +/- 11.20 PD for exotropia (LOA 39.09 and -4.79 PD).

120 ist recession (12 with esotropia and 19 with exotropia; mean [SD] age, 28 [24] years).

121 nist recession (13 with esotropia and 9 with exotropia; mean [SD] age, 38 [21] years).

122 tcome was deterioration, defined as constant exotropia measuring at least 10 Delta at distance and ne

123 th follow-up visit, defined as: (1) constant exotropia measuring at least 10 PD at distance and near

124 One hundred six children with intermittent exotropia (median age, 6 years; range, 2-16 years) were

125 Intermittent exotropia met the following criteria: (1) IXT at distanc

126 acquired exotropia mostly manifests as an intermittent form, and

127 n diagnosis (n = 181,195, 52.6%) followed by exotropia (n = 161,712, 46.9%) and hypertropia (n = 43,8

128 Nonsurgical consecutive exotropia (NCX) occurs when an esotropia (ET) spontaneou

129 the strength of eye fixation preference and exotropia occurrence rate or amplitude.

130 3 years, defined as constant or intermittent exotropia of >=10 Delta at distance or near by simultane

131 They had a mean exotropia of 19.3 +/- 5.3 degrees and a mean occurrence

132 us from esotropia of 21 prism diopters () to exotropia of 21.

133 Individuals with constant or intermittent exotropia of any magnitude or a history of surgery for e

134 sotropia, similar to those with intermittent exotropia or convergence insufficiency, increases the od

135 lar adjustment leading to strabismus without exotropia or esotropia predominance.

136 LR surgery (14 recessions, 1 resection) for exotropia or esotropia simultaneous with GDD placement (

137 e likely to be successful than on those with exotropia (OR = 1.9, range 1.2-3), and premature patient

138 ts and by long-term drift, especially toward exotropia; outcomes in specific situations, for example,

139 ity deterioration or progression to constant exotropia over 3 years was uncommon, and exotropia contr

140 ction rate was higher for esotropia than for exotropia (P < .001 for both).

141 es with constant and 13.1% with intermittent exotropia (P < .001).

142 ith constant and 88 (4.6%) with intermittent exotropia (P < .001).

143 significant difference between esotropia and exotropia (p < 0.001).

144 This was highly significant for exotropia (P = .0002) but not for esotropia (P = .4).

145 al features of the constant and intermittent exotropia patients has not been clear yet.

146 inancy, the non-dominant eye in intermittent exotropia patients showed significantly more minus spher

147 The angle of exotropia (PD) before and after surgery and the success

148 t refractive error, amount and laterality of exotropia, presence of amblyopia and anisometropia.

149 ase in eye misalignment from the significant exotropia present at birth, ending with approximately 10

150 The Intermittent Exotropia Questionnaire (IXTQ) is a patient, proxy, and

151 d assessment of HRQOL using the intermittent exotropia questionnaire (IXTQ), comprising child, proxy,

152 oderate, and 88% with severe PVL (esotropia: exotropia ratio 3.5:1).

153 can cohorts, but a somewhat higher esotropia:exotropia ratio than those that, to our knowledge, are t

154 The esotropia:exotropia ratio was 5.4:1 (95% CI, 3.4:1 to 7.5:1).

155 lateral rectus muscle, and 12 patients with exotropia received bupivacaine injections in the medial

156 ismus surgery for children with intermittent exotropia, regardless of success or age at surgery, did

157 Studies on the treatment of exotropia related to anisometropia have demonstrated les

158 , partially accommodative esotropia, and all exotropia revealed interactions between strabismus subty

159 bismus, but it is not known if esotropia and exotropia share genetic risk factors.

160 factor, inheritance, risk factor, esotropia, exotropia, strabismus, squint, convergent strabismus, an

161 Overall success for AS in exotropia surgery (80.8%) was significantly higher than

162 ted with a high rate of long-term success in exotropia surgery in children.

163 %-61.2%; P < .001), and had a higher rate of exotropia surgery than those without a duplication (58%

164 ger than 12 years of age with moderate-angle exotropia (up to 25 PD) who were operated during the yea

165 pants, also not meeting MDC, had large-angle exotropia, vertical gaze deficiency, and ptosis consiste

166 Patients with exotropia, vertical gaze limitation, and ptosis do not h

167 In 13 patients the occurrence of exotropia was <1%; they were deemed to have an exophoria

168 The mean angle of exotropia was 42 +/- 14 prism diopters.

169 The mean angle of exotropia was 42 14 prism diopters.

170 Mean of the duration of exotropia was 6.9 +/- 2.2 years, and the mean of postope

171 o detect than exotropia in Asian models, and exotropia was easier to detect than esotropia in white a

172 A-pattern exotropia was frequent, correlating with apparent latera

173 Alternating exotropia was induced in two male macaques at age 1 mont

174 Delayed consecutive exotropia was more prevalent in the 50Delta to 69Delta r

175 64 participants with ocular alignment data; exotropia was present in 14 of 23 participants (61%).

176 Intermittent exotropia was present in 31 of 44 patients.

177 distance and near in patients with constant exotropia was significantly higher than in the intermitt

178 visual suppression, a divergent strabismus (exotropia) was induced in six normal, adult Macaca fasci

179 ons in the form of consecutive esotropia and exotropia were corrected by means of 26.1PD and 65.6PD w

180 Epochs of exotropia were extracted and replotted to show each eye'

181 Constant and intermittent exotropia were observed in 4244 (68.9%) and 1915 (31.1%)

182 of any magnitude or a history of surgery for exotropia were recruited from pediatric ophthalmic pract

183 Sixteen human subjects with alternating exotropia were tested dichoptically while viewing stimul

184 movements made by patients with intermittent exotropia when fusion loss occurs spontaneously and to c

185 tients with typical findings of intermittent exotropia who experienced frequent spontaneous loss of f

186 of vertical gaze in a subject with X-pattern exotropia who had undergone repeated LR surgery.

187 : 221 patients with a diagnosis of secondary exotropia who underwent medial rectus advancement surger

188 intraoperatively, and the fourth had marked exotropia with a right gaze deficit affecting both eyes.

189 med within 48 h, following which patient had exotropia with adduction deficit.

190 e case study of 25 patients with alternating exotropia with normal visual acuity in each eye and 25 c

191 Deterioration to constant exotropia, with or without treatment, is rare.

192 ns is limited, as with intermittent distance exotropia (X(T)), this presents a challenge for families

193 gement and outcomes of intermittent distance exotropia [X(T)] in the UK.

194 an esotropia (ET) spontaneously converts to exotropia (XT) without surgical intervention.

195 with esotropia (ET) and 54 454 children with exotropia (XT).