ライフサイエンスコーパス: ocular trauma

1 rmine factors associated with sports-related ocular trauma.

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

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

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

5 optic nerve rupture that may accompany blunt ocular trauma.

6 healing response after retinal detachment or ocular trauma.

7 ment, and prognostic indicators in pediatric ocular trauma.

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

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

10 recreational activities that pose a risk of ocular trauma.

11 le of producing severe blunt and penetrating ocular trauma.

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

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

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

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

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

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

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

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

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

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

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

23 Blunt ocular trauma causes severe retinal injury with death of

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

40 After ocular trauma, photoreceptor apoptosis may be prevented

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

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

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

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

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

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

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

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

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

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

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

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

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

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