ライフサイエンスコーパス: corneal ulcer

1 serious ocular diseases, such as keratitis (corneal ulcers).

2 One patient lost 4 lines of vision from a corneal ulcer.

3 rolled in the trial, 55 (11%) had a Nocardia corneal ulcer.

4 ge from occasional redness and irritation to corneal ulcer.

5 er, visual acuity (VA), size and location of corneal ulcer.

6 ukoma in right eye as a result of a previous corneal ulcer.

7 h as conjunctivitis, scleritis, uveitis, and corneal ulcer.

8 ral antifungal therapy for a presumed fungal corneal ulcer.

9 le intervention for dendritic and geographic corneal ulcers.

10 ved AM as an adjuvant therapy for infectious corneal ulcers.

11 on occurs earlier in the course of bacterial corneal ulcers.

12 mycin in the treatment of moderate bacterial corneal ulcers.

13 keratitis and to the pathogenesis of sterile corneal ulcers.

14 pid epithelialization in severe neurotrophic corneal ulcers.

15 pathologic overproduction of gelatinase B in corneal ulcers.

16 useful indicator of the burden of disease of corneal ulcers.

17 erable to complications and morbidity due to corneal ulcers.

18 ous detachments (4.15%), chalazions (3.71%), corneal ulcers (3.01%), subconjunctival hemorrhages (2.9

19 The main complications observed were corneal ulcer (4.4%), macular edema (1.1%), and hyphema

20 .97%), extraocular foreign body (7.61%), and corneal ulcer (7.06%).

21 Corneal ulcer, a major cause of monocular blindness in d

22 phic lesion (persistent epithelial defect or corneal ulcer) after 8 weeks of masked treatment.

23 rson-years in the intervention group and 262 corneal ulcers among 239 170 person-years in the control

24 The census identified 289 corneal ulcers among 246 893 person-years in the interve

25 ulture- or smear-positive filamentous fungal corneal ulcer and a baseline visual acuity of 20/40 to 2

26 The prevalence rates of corneal ulcer and perforation were 6.2% and 4.0%, respec

27 led in SCUT had a culture-positive bacterial corneal ulcer and received moxifloxacin.

28 ment in the form of reduction of the size of corneal ulcer and stromal infiltrates together with the

29 Corneal ulcers and orbital infection occurred in 0.03% e

30 are in intensive care units that can lead to corneal ulcers and permanent eye damage.

31 The CNN classified corneal ulcers and scars with high accuracy and generali

32 was trained and tested using photographs of corneal ulcers and scars.

33 Corneal ulcers are a common cause of blindness in low-in

34 The most frequent pathogens that cause the corneal ulcers are P. aeruginosa and S. aureus.

35 years) admitted with a primary diagnosis of corneal ulcer between quarter 4 of 2015 through 2020 and

36 ylaxis of corneal abrasions can help prevent corneal ulcers, but delays in the initiation of therapy

37 apy in treating sight-threatening infectious corneal ulcers by promoting faster corneal epithelializa

38 likely positioned it as an unusual cause of corneal ulcer, can be easily recognized in the laborator

39 to determine the microbiological profile of corneal ulcer cases diagnosed among patients visiting Ti

40 he only Gram negative bacteria isolated from corneal ulcer cases.

41 with significantly better visual acuity than corneal ulcers caused by genotypically cytotoxic P aerug

42 While corneal ulcers caused by genotypically invasive P aerugi

43 Corneal ulcer complicated the disease in only 2 adult pa

44 complications after HSCT included cataract, corneal ulcer, corneal perforation, lacrimal obstruction

45 The main outcome measure was incident corneal ulcer, defined as an active infiltrate or eviden

46 Corneal ulcers developed in 2 eyes, and keratolimbal gra

47 edema, poor presenting visual acuity, larger corneal ulcer diameter, and causative organisms were not

48 n be used successfully in eyes with advanced corneal ulcers due to various infectious and noninfectio

49 Here, we report a patient with corneal ulcer formation following pterygium surgical exc

50 e ulcers and 65 of 77 scars in patients with corneal ulcer from India (F(1) score, 92.0% [95% confide

51 e ulcers and 42 of 46 scars in patients with corneal ulcers from Northern California (F(1) score, 84.

52 ugh MUTT II could not find a benefit for all corneal ulcers, Fusarium keratitis may benefit from the

53 for non-operative management were primarily corneal ulcer, glaucoma, and infection, including orbita

54 Although P. aeruginosa corneal ulcers have a more severe presentation, they app

55 Corneal ulcer hospitalizations represent a significant b

56 atitis (HR, 1.635; 95% CI, 1.306-2.047), and corneal ulcer (HR, 2.132; 95% CI, 1.515-3.002).

57 ent trend in the microbiological etiology of corneal ulcer in Nepal, which have important public heal

58 prompt diagnosis and treatment of infectious corneal ulcers in children.

59 and Acanthamoeba cysts in moderate to large corneal ulcers in India.

60 healing of persistent epithelial defects and corneal ulcers in patients with NK.

61 Corneal ulcers made up a major proportion of admission r

62 dary glaucoma (n = 2), cataract (n = 1), and corneal ulcer (n = 1).

63 Photographs of corneal ulcers (n = 1313) and scars (n = 1132) from the

64 ved long-term clinical outcomes in bacterial corneal ulcers not caused by Nocardia species.

65 l surface damage, including corneal erosion, corneal ulcers, or corneal scars.

66 ocida include: endophtalmitis, keratitis and corneal ulcers, Parinaud's oculoglandular syndrome, and

67 uring the first 3 years of a community-based corneal ulcer prevention programme.

68 sess whether a community-based programme for corneal ulcer prevention would reduce the incidence of c

69 ffect of nicergoline on the rate of complete corneal ulcer reepithelialization (CCUR) in diabetic rat

70 Successful treatment for a corneal ulcer requires proper diagnosis and antibiotic s

71 2 participants with smear-positive bacterial corneal ulcers screened, 280 participants (14%; mean [SD

72 was used as a drug-delivery vehicle to treat corneal ulcers successfully in 6 eyes.

73 ere attending their first appointment, had a corneal ulcer that was suggestive of a bacterial or fung

74 th NK with a persistent epithelial defect or corneal ulcer, treated with topical rhNGF, and age-match

75 microbial keratitis during the Steroids for Corneal Ulcers Trial (SCUT) and for two laboratory strai

76 The Steroids for Corneal Ulcers Trial (SCUT) was a randomized, double-mas

77 In the Steroids for Corneal Ulcers Trial (SCUT), 500 corneal infections were

78 formed on data collected in the Steroids for Corneal Ulcers Trial (SCUT), a large randomized controll

79 l ulcers were obtained from the Steroids for Corneal Ulcers Trial (SCUT), Mycotic Ulcer Treatment Tri

80 isolates from the double-blind Steroids for Corneal Ulcers Trial (SCUT), which included patients at

81 ndomized, controlled trial (the Steroids for Corneal Ulcers Trial [SCUT]).

82 e large, randomized, controlled Steroids for Corneal Ulcers Trial found that although steroids provid

83 The Steroids for Corneal Ulcers Trial was a randomized, double-masked, pl

84 e National Eye Institute-funded Steroids for Corneal Ulcers Trial were subtyped as cytotoxic or invas

85 P aeruginosa isolates from the Steroids for Corneal Ulcers Trial, 74 had a classically cytotoxic or

86 ing the orbit and eyelids, although marginal corneal ulcers, uveitis, and epibulbar masses have also

87 Following examination, the corneal ulcer was scanned by IVCM (HRT3/RCM, Heidelberg

88 Microbiologically proven cases of bacterial corneal ulcers were enrolled in the study and were alloc

89 Five hundred patients with corneal ulcers were enrolled in the trial, and 480 were

90 Based on NIS national estimates, corneal ulcers were estimated to have a direct annual he

91 De-identified photographs of corneal ulcers were obtained from the Steroids for Corne

92 atitis, keratitis with focal infiltrates, or corneal ulcers were processed and evaluated for bacteria

93 ritis, and keratoconjunctivitis sicca before corneal ulcer, which are consistent with the canine lite

94 an with recurrent keratitis presented with a corneal ulcer, which was culture positive for ESBL E col

95 ion of MIC on clinical outcomes in bacterial corneal ulcers, while controlling for organism and sever

96 ients with smear-positive filamentous fungal corneal ulcers who enrolled between May 2010 and August

97 ulture- or smear-positive filamentous fungal corneal ulcers who had a baseline visual acuity of 20/40

98 d conjunctival congestion, a central whitish corneal ulcer with a central epithelial defect, and hypo

99 Slit-lamp exam revealed a corneal ulcer with feathery margin and Descemet's membra

100 Patients who had undergone mini-KP to treat corneal ulcers with or without perforation between 2011

101 had smear- and/or culture-positive bacterial corneal ulcers with Snellen visual acuity of 20/40 or wo

102 e keratitis (PUK) is a group of inflammatory corneal ulcers with stromal thinning and peripheral loca

103 as aeruginosa is a leading cause of blinding corneal ulcers worldwide.