ライフサイエンスコーパス: retinal hemorrhage

1 iary body hemorrhage, and 11% had peripheral retinal hemorrhage).

2 Large focal leak was observed as an evolving retinal hemorrhage.

3 classical posterior localization of neonatal retinal hemorrhage.

4 astrocyte-associated vasculature leading to retinal hemorrhage.

5 teristics of ROP, pre-plus/plus disease, and retinal hemorrhage.

6 on existed between vaccination injection and retinal hemorrhage.

7 7, 14, or 21 days preceding examination and retinal hemorrhage.

8 of beta-APP and ubiquitin immunostaining and retinal hemorrhage.

9 LFL was observed as an evolving retinal hemorrhage.

10 inal vascular permeability, leukostasis, and retinal hemorrhage.

11 ction of collagenase mimicked PK's effect on retinal hemorrhage.

12 yes, a potential pitfall in the diagnosis of retinal hemorrhages.

13 ndant microaneurysms, leaky capillaries, and retinal hemorrhages.

14 linically appreciated, especially related to retinal hemorrhages.

15 by the presence of cotton wool spots and/or retinal hemorrhages.

16 actures, subdural hematoma of the brain, and retinal hemorrhages.

17 a "double-ring sign" accompanied by diffuse retinal hemorrhages.

18 e of 0.18 (95% CI: 0.10-0.30, I(2) = 94.1%), retinal hemorrhage 0.08 (95% CI: 0.05-0.12, I(2) = 77.8%

19 he most frequent ocular AEs (study eye) were retinal hemorrhage (12.8%; 1 event related to study drug

20 bridging vein thrombosis, 74 of 99 (75%) had retinal hemorrhages, 23 of 72 (32%) had fractures, 26 of

21 The most common ocular manifestations were retinal hemorrhages (25.86%, n = 15), Purtscher-like ret

22 one spicules, retinal vascular sheathing, or retinal hemorrhages; (3) examination with >1+ anterior c

23 e flame hemorrhages (48%) and white-centered retinal hemorrhages (30%).

24 ve head trauma cases with varying degrees of retinal hemorrhage and associated findings.

25 s with diabetic retinopathy, suggesting that retinal hemorrhage and erythrocyte lysis contribute to t

26 linical significance in a patient's risk for retinal hemorrhage and likely warrant periodic surveilla

27 rent literature regarding the association of retinal hemorrhage and subarachnoid bleeds in infants wh

28 n significantly inhibited the development of retinal hemorrhages and acellular capillaries over the 5

29 r Purtscher-like retinopathy is diagnosed by retinal hemorrhages and areas of retinal whitening on fu

30 retina led to long-term neovascularization, retinal hemorrhages and compromised retinal layers.

31 n the left eye, it was associated with intra-retinal hemorrhages and diagnosed as macular branch reti

32 ocal in 12 of 15 eyes, associated with small retinal hemorrhages and intraretinal exudation.

33 almologist in grading fundus photographs for retinal hemorrhages and maculopathy.

34 ays) revealed extensive vascular thrombosis, retinal hemorrhages and necrosis, and a dense inflammato

35 f retinal signs including cotton wool spots, retinal hemorrhages and Purtscher flecken.

36 occur early in the disease process, whereas retinal hemorrhages and retinal lipid may occur later.

37 For retinal hemorrhages and/ or microaneurysms, hard exudate

38 r agreement for overall retinal pathologies, retinal hemorrhage, and maculopathy were substantial bot

39 vealed a temporal retinal tear, inferior pre-retinal hemorrhage, and mild vitreous hemorrhage.

40 he presence of preplus disease, stage 2 ROP, retinal hemorrhage, and the need for ventilation at time

41 Eleven children (3.3%) had perivascular retinal hemorrhages, and 3 (0.9%) had lesions compatible

42 5%) had extraaxial hemorrhages, 52 (51%) had retinal hemorrhages, and 35 (35%) had evidence of acute

43 sms, pericyte ghosts, acellular capillaries, retinal hemorrhages, and other lesions.

44 trauma score, worse prerepair visual acuity, retinal hemorrhage, anterior vitrectomy at primary repai

45 Retinal hemorrhages are an important sequela of fatal he

46 Retinal hemorrhages are not needed to make a diagnosis o

47 the retina, consistent with the finding that retinal hemorrhages are often found in multiple layers o

48 Retinal hemorrhages are the most common fundus finding i

49 Photographs of retinal hemorrhages are very helpful to child advocacy e

50 rrhages, optic nerve sheath hemorrhages, and retinal hemorrhages--are generally thought to be limited

51 The prevalence and causes of retinal hemorrhage, as well as the temporal association

52 ome was the association between COVID-19 and retinal hemorrhage assessed across 4 periods: retinal ex

53 hod provides an automated means of detecting retinal hemorrhages associated with malarial retinopathy

54 dus exhibited superior venous tortuosity and retinal hemorrhages compatible with incomplete branch re

55 posterior segment findings that include both retinal hemorrhages, cotton wool spots, and macular edem

56 liferative diabetic retinopathy (PDR), cause retinal hemorrhage, detachment, and eventually blindness

57 x-month-old girl with bilateral multilayered retinal hemorrhages due to SBS.

58 fundus examinations, 9 of 5177 children had retinal hemorrhage for a prevalence of 0.17% (95% CI, 0.

59 aract, macular dragging/ectopia, vitreous or retinal hemorrhage, glaucoma, and endophthalmitis.

60 children with positive COVID-19 testing and retinal hemorrhage had alternative plausible causes with

61 Patients with retinal hemorrhages had lower platelet counts than those

62 Six weeks later, retinal hemorrhages had substantially resolved, and ther

63 The accurate pathologic diagnosis of retinal hemorrhages has critical implications for determ

64 e found between COVID-19 and the presence of retinal hemorrhage in any of the periods: 7 days (odds r

65 hould not be considered a potential cause of retinal hemorrhage in children, and this unsupported the

66 ld not be considered as a potential cause of retinal hemorrhage in children, and this unsupported the

67 accinations have been proposed as a cause of retinal hemorrhage in children, primarily as part of a d

68 onavirus disease 2019 is not associated with retinal hemorrhage in children.

69 K or collagenase, but not bradykinin, induce retinal hemorrhage in rats.

70 ssociation between vaccination injection and retinal hemorrhage in the prior 7 days (P > .99), 14 day

71 chamber and vitreous inflammation, sectoral retinal hemorrhages in areas of ischemia, and predilecti

72 f retinal vessels, cotton wool spots and few retinal hemorrhages in both eyes.

73 important implications for the diagnosis of retinal hemorrhages in potential cases of nonaccidental

74 the biomechanical cause underlying neonatal retinal hemorrhage include elevated intracranial pressur

75 es, [kappa (k); 95 % CI = 0.59 (0.51-0.66)], retinal hemorrhage [k; 95 % CI = 0.60 (0.41-0.78)], and

76 0.52 (0.44-0.60)], substantial agreement for retinal hemorrhage [k; 95 % CI = 0.68 (0.52-0.84)], mode

77 dation (n = 6), epiretinal membrane (n = 3), retinal hemorrhage (n = 2), vitreous hemorrhage (n = 1),

78 r crack (n = 6, 1.8%), T-sign (n = 6, 1.8%), retinal hemorrhage (n = 3, 0.9%), active myopic choroida

79 , including conjunctival hemorrhage (n = 5), retinal hemorrhage (n = 4), and vitreous floaters (n = 4

80 seeds (n = 3), vitreous hemorrhage (n = 2), retinal hemorrhage (n = 4), subretinal fluid (n = 4), an

81 mplications included DES (n = 7 [14%]), (sub)retinal hemorrhage (n = 6 [12%]), optic disc edema (n =

82 ual loss associated with retinal vasculitis, retinal hemorrhage, non-confluent posterior retinal infi

83 Eight infants (21%) had retinal hemorrhages noted on dilated retinal examination

84 a dull macula, and tortuous vessels, with no retinal hemorrhages observed.

85 Retinal hemorrhages occur in a variety of sight-threaten

86 Ophthalmologists noting incidental retinal hemorrhage on an outpatient examination should c

87 gulation with resolution of vitreous and pre-retinal hemorrhages on 4-month follow up.

88 ase in the mean number of microaneurysms and retinal hemorrhages on UWF CFP at M3 versus M0 (n = 40+/

89 otographs: 1) no retinopathy, 2) presence of retinal hemorrhages only, 3) presence of retinal microan

90 The PRS was associated with retinal hemorrhage (OR = 1.44, 95% CI 1.03-2.02; P = 0.0

91 hage (OR, 2.43; 95% CI, 1.22-4.83; P = .01), retinal hemorrhage (OR, 2.17; 95% CI, 1.40-3.38; P < .00

92 5% CI, 2.13-8.00 vs no ROP), the presence of retinal hemorrhage (OR, 4.36; 95% CI, 1.57-12.1 vs absen

93 c nerve sheath, intrascleral hemorrhage, any retinal hemorrhage, ora-extended hemorrhage, cherry hemo

94 d children with head injury, the presence of retinal hemorrhages (positive LR, 11.0 [95% CI, 4.0-32.0

95 fundoscopic findings of optic disc edema and retinal hemorrhages, possibly consistent with a papillop

96 We found that retinal hemorrhage, Purtscher-like retinopathy, retinal

97 3 years, the presence of extensive bilateral retinal hemorrhages raises a very strong possibility of

98 als have shown that VEGF inhibition improves retinal hemorrhages, retinal vessel closure, and progres

99 n is often missed in medical encounters, and retinal hemorrhage (RH) is considered strong evidence fo

100 ns of the retina can explain the patterns of retinal hemorrhage (RH) seen in AHT.

101 stress patterns consistent with the diffuse retinal hemorrhages (RH) typically found in the posterio

102 d retinopathy (ROR: 9.424 [1.081-3.406]) and retinal hemorrhage (ROR: 10.253 [0.319-4.336]) in non-T2

103 t surgery; retinal tear; retinal detachment; retinal hemorrhages; scotomas; and an increased number o

104 l deformation is a more likely mechanism for retinal hemorrhage than occlusion of the central retinal

105 If vaccination injections cause retinal hemorrhage, this consideration would affect the

106 Retinal hemorrhage was examined on retinal flatmounts.

107 Retinal hemorrhage was infrequent.

108 Retinal hemorrhage was present in a smaller number of an

109 Retinal hemorrhage was rare among outpatients younger th

110 he most common anticipated severe AE (severe retinal hemorrhage) was eliminated in the second cohort

111 Retinal hemorrhages were categorized according to size-t

112 Retinal hemorrhages were found at childbirth during earl

113 Retinal hemorrhages were found most frequently in all 4

114 Nonsevere, transient retinal hemorrhages were noted either during or after su

115 Retinal hemorrhages were significantly more severe, occu

116 al characteristics (subdural hemorrhages and retinal hemorrhages) were compared before and after the

117 p papillophlebitis with optic disc edema and retinal hemorrhages, which may be associated with a hype

118 ld intraocular inflammation in both eyes and retinal hemorrhages with an apparent choroidal neovascul

119 , white retinitis; arteritis; phlebitis; and retinal hemorrhages with or without macular star.

120 No children had retinal hemorrhage within 7 days of vaccination, 1 child