ライフサイエンスコーパス: ocular trauma

1 ere women, and 25% had a history of previous ocular trauma.

2 lens, prior ophthalmic surgeries, and prior ocular trauma.

3 body contact, which may frequently result in ocular trauma.

4 (OGI) is one of the most devastating form of ocular trauma.

5 ghlighting the importance of CT in assessing ocular trauma.

6 tion of injury in visual tracts secondary to ocular trauma.

7 of the benefits of using a TKP for cases of ocular trauma.

8 l surgery with the use of a TKP for cases of ocular trauma.

9 retinopathy, serous RD, retinal dialysis, or ocular trauma.

10 of retinal ganglion cells (RGC) after blunt ocular trauma.

11 rmine factors associated with sports-related ocular trauma.

12 rat model of retinal injury caused by blunt ocular trauma.

13 uantifying the role of direct blunt force in ocular trauma.

14 optic nerve rupture that may accompany blunt ocular trauma.

15 healing response after retinal detachment or ocular trauma.

16 ment, and prognostic indicators in pediatric ocular trauma.

17 al trauma has a high incidence of concurrent ocular trauma.

18 most common settings for bungee cord-related ocular trauma.

19 recreational activities that pose a risk of ocular trauma.

20 le of producing severe blunt and penetrating ocular trauma.

21 aetiological factors and the presentation of ocular trauma.

22 OTS stages (I or II), indicating more severe ocular trauma.

23 er toy guns (NPTGs) are responsible for many ocular traumas.

24 is/corneal opacity (16%), amblyopia (14.3%), ocular trauma (11.8%), cataract (6.3%), Glaucoma (2%) an

25 y encountered was conjunctivitis (35%), then ocular trauma (11.8%), refractive error (11.4%) and trac

26 Of 316,485 patients admitted with ocular trauma, 12,233 (3.86%) were mortality related.

27 ll reduction in the odds of firework-related ocular trauma, additional studies are warranted to asses

28 termine characteristics of mortality-related ocular trauma admissions and compared them with non-fata

29 e older, male, and mostly of White race than ocular trauma admissions of survivors.

30 fter June 1, 2005, with no history of recent ocular trauma and a corneal culture growing Fusarium spe

31 neal fibrosis is often seen in patients with ocular trauma and infection that compromises corneal tra

32 as a significant positive assocation between ocular trauma and living in rural areas (OR: 1.49, p: 0.

33 Ocular trauma and surgery are considered the most common

34 In all 9 cases the mean interval between the ocular trauma and the diagnosis of CNV was 5.7 months (S

35 erstanding of ocular conditions like myopia, ocular trauma, and glaucoma.

36 rious complication of retinal detachment and ocular trauma, and its recurrence may lead to irreversib

37 eedom, describe the classification of combat ocular trauma, and offer strategies that may assist in t

38 istory of choroidal detachment, high myopia, ocular trauma, and open globe were associated with incre

39 tal vasculature, retinopathy of prematurity, ocular trauma, and retinal detachment.

40 Orbital fractures are common in ocular trauma, and there is a need to develop predictive

41 egistry, RD was associated with a history of ocular trauma, aphakia, premature retina, persistent fet

42 entations so that clinicians may be aware of ocular trauma associated with this sport.

43 Patients sustaining Orbeez-related ocular trauma at a single institution over a 13-month pe

44 ypopyon (beta = 0.27; P = 0.0083), no recent ocular trauma (beta = 0.21; P = 0.0370), and larger stro

45 c retinal detachment from basketball-related ocular trauma between 2003 and 2015.

46 Measures: Annual incidence of sports-related ocular trauma, broken down by age, sex, mechanism of inj

47 She reported no history of ocular trauma; but associated findings and further inves

48 Importance: Ocular trauma can lead to lifelong sequelae, and sports-

49 Endophthalmitis after ocular trauma carries a significantly worse prognosis, w

50 Blunt ocular trauma causes severe retinal injury with death of

51 This study found a marked prevalence of ocular trauma compared to previous studies.

52 On the basis of ocular trauma described according to the Birmingham Eye

53 ents with unilateral choroidal rupture after ocular trauma diagnosed between 2000 and 2016 were retro

54 eview the recent literature regarding combat ocular trauma during hostilities in Operations Iraqi Fre

55 thetic purposes, without any complication or ocular trauma during the follow-up.

56 Of 230 consultations for ocular trauma during the study period, 94 patients (mean

57 sk of subjects' demographic characteristics, ocular trauma etiology, clinical findings and modified O

58 with unexplained vision loss and history of ocular trauma, even when initial imaging fails to detect

59 in a blast survivor should prompt a thorough ocular trauma examination, including gonioscopy and spec

60 most common reason for presentation is blunt-ocular trauma followed by various iatrogenic interventio

61 ications have highlighted features of combat ocular trauma from Operation Iraqi Freedom.

62 eview the scientific literature on pediatric ocular trauma from the past several years.

63 A total of 89 patients presented with ocular trauma, giving an incidence of 3.5%.

64 Children with a history of ocular trauma (hazard ratio [HR], 2.22; 95% CI 1.39-3.57

65 ty of sight-threatening conditions including ocular trauma, high altitude retinopathy, and chronic di

66 Ocular trauma in children results in long-term visual im

67 le comprehensive capturing and monitoring of ocular trauma in clinical and research settings.

68 rs that in severe retinal injury after blunt ocular trauma in humans, and the ultrastructural feature

69 Animal and bird-related ocular trauma in Iran predominantly involves injuries ca

70 To determine the prevalence of ocular trauma in Iranian children aged 6-12 years.

71 Falls are an important mechanism of ocular trauma in older adults and are associated with wo

72 ate the participation of RPE cells, to mimic ocular trauma in situ, and to reveal the related macromo

73 shington, among 230 patients presenting with ocular trauma in the 2 weeks surrounding the Independenc

74 The notes of all patients presenting with ocular trauma in the specified time period were examined

75 ncy department (ED) burden of sports-related ocular trauma in the United States.

76 ude that intravitreal injection timing after ocular trauma induced variable retinal and ON pathology,

77 Ocular trauma is a leading cause of monocular blindness

78 Epidemiologic studies have shown that ocular trauma is a major cause of monocular blindness an

79 Pediatric ocular trauma is a major source of morbidity and blindne

80 Immediate management of ocular trauma is critical in order to prevent blindness.

81 e severity of injury after paintball-induced ocular trauma is higher in this case series than what ha

82 Ocular trauma is still prevalent in South-eastern Nigeri

83 remains paramount in managing Orbeez-related ocular trauma; it is critical to raise awareness regardi

84 Cases of NPTG-associated ocular trauma managed in a Parisian eye emergency depart

85 Orbeez-related ocular trauma may be associated with severe visual morbi

86 nd type of injuries seen with sports-related ocular trauma may be useful for resource utilization, tr

87 uding subject demographic data, diagnoses of ocular trauma, mechanism of injury, and disposition.

88 as the incidence of respiratory distress and ocular trauma observed in this class of dogs is highly c

89 Ocular trauma often involves intraocular foreign bodies

90 Following ocular trauma or in diseases such as glaucoma, irreversi

91 unt include age, sex, diabetes, a history of ocular trauma or inflammation, and contact lens wear.

92 ies with lens tumors had a history of either ocular trauma or protracted uveitis.

93 eral uveitis with 1) a history of unilateral ocular trauma or surgery and 2) an anterior chamber and

94 TTP or HUS, pregnant patients, patients with ocular trauma or surgery, and patients with other comorb

95 previous ocular trauma or surgery; retinal or developmental disea

96 NPTG-related ocular trauma outcomes differ according to the causative

97 s should be considered following any form of ocular trauma, particularly in cases involving ocular su

98 Consecutive ocular trauma patients were enrolled over a 5-month peri

99 After ocular trauma, photoreceptor apoptosis may be prevented

100 liferative vitreoretinopathy (PVR) following ocular trauma, previously quiescent retinal pigment epit

101 ith CNV secondary to choroidal rupture after ocular trauma receiving intravitreal anti-VEGF (vascular

102 The burden of ocular trauma resulting from the recent earthquakes in N

103 comes in traumatic open globe injuries using ocular trauma score (OTS) and correlate with final visua

104 omputerized tomography (CT) findings and the Ocular Trauma Score (OTS) in patients with open globe in

105 A modified ocular trauma score (OTS) using presenting VA, the prese

106 The Ocular Trauma Score accurately estimates vision prognosi

107 Eighty percent of the Ocular Trauma Score categories were accurate.

108 s included the best-corrected visual acuity, Ocular Trauma Score category, and performance of vision

109 ded to 74% and 15% predicted by the original Ocular Trauma Score guidelines (100% sensitive and 100%

110 This study validates the use of the Ocular Trauma Score in patients with combined facial fra

111 The majority of patients had an Ocular Trauma Score of 1 (87.5%), and of these patients,

112 visual acuity of 2.52 +/- 0.41; 75% with an Ocular Trauma Score of 1 or 2).

113 Ocular Trauma Score of 1 was associated with zone 3 eye

114 al prognosis for open globe injuries with an Ocular Trauma Score of 1.

115 Independent of Ocular Trauma Score, initial visual acuity and frontal b

116 In the absence of data to calculate a full Ocular Trauma Score, initial visual acuity was the stron

117 cting follow-up surgery included more severe ocular trauma score, worse prerepair visual acuity, reti

118 te prognoses for 30 patients compared to the Ocular Trauma Score.

119 ital fracture status in our Modified Florida Ocular Trauma Score.

120 639 for the logistic model and 0.582 for the Ocular Trauma Score.

121 tion, certain medications (corticosteroids), ocular trauma, significant UV exposure or radiation ther

122 A total of twenty-one cases of ocular trauma specifically intraocular foreign bodies we

123 Few ocular trauma studies have addressed mortality outcomes.

124 Ocular trauma terminology should be periodically updated

125 nal terms are required to update the current ocular trauma terminology.

126 ifiable risk factors associated with IPV and ocular trauma that can contribute to IPV awareness among

127 lleviate elevated intraocular pressure after ocular trauma to the same eye.

128 val of the eye may be necessary after severe ocular trauma, to control pain in a blind eye, to treat

129 A positive history of ocular trauma was found in 285 participants, and the lif

130 Predisposing factors were found in 78%; ocular trauma was the most common (25%).

131 ical procedure, and visual outcomes for each ocular trauma were analyzed.

132 surgery and PKP with the use of a TKP after ocular trauma were eligible for inclusion.

133 , previous glaucoma diagnosis or surgery, or ocular trauma were excluded.

134 The odds of firework-related ocular trauma were higher among those living in an area

135 en eyes that had wound dehiscence related to ocular trauma were included.

136 y suggests that the odds of firework-related ocular trauma were slightly higher among residents of ar

137 ripheral iridotomy), intraocular surgery, or ocular trauma, were consecutively recruited from a commu

138 d living in rural areas were associated with ocular trauma, which could be due to differences in life

139 missing data) presented with sports-related ocular trauma, which was the primary diagnosis in 85961

140 racterizing the burden of earthquake-related ocular trauma will facilitate planning for service provi