ライフサイエンスコーパス: retinal artery

1 ioretinal artery and not the ordinary branch retinal artery.

2 ttent retinal artery occlusions of different retinal arteries.

3 gions supplied by side branches of low-order retinal arteries.

4 tic NGRs, most leukocytes accumulated in the retinal arteries.

5 till multiple emboli in the conjunctival and retinal arteries.

6 f this feature was considered indicative for retinal arteries and compared with the ground truth.

7 With MR microangiography, retinal arteries and veins could be distinguished on the

8 on (PO(2)) was measured noninvasively in the retinal arteries and veins on optical section retinal im

9 erforming several microvascular maneuvers on retinal arteries and veins was demonstrated in porcine e

10 heterization, and intravascular injection of retinal arteries and veins were possible.

11 Our method was able to classify retinal arteries and veins with a commercially available

12 c discs were associated with smaller central retinal artery and central retinal vein diameters.

13 se the involved pathologically permeabilized retinal artery and normalize the vessel wall formation b

14 hthalmic artery trifurcates into the central retinal artery and two posterior ciliary arteries.

15 uter-based program and summarized as central retinal artery and vein equivalents (CRAE, CRVE).

16 tinal vascular caliber measurements (Central Retinal Artery and Vein Equivalents; CRAE and CRVE) at E

17 peripheral vasculitis to occlusion of large retinal arteries around the optic nerve or macula with s

18 Mean sensitivity of the central retinal artery assessments was 0.58 (range 0.31-0.84) an

19 ood flow velocity profiles systematically in retinal arteries but not in veins.

20 CRAO was induced in the central retinal artery by intravenous injection of rose bengal a

21 athing condition, mean P(O2) in the choroid, retinal arteries, capillaries, and veins were 58+/-2 mm

22 atistically lower than P(O2) measured in the retinal artery, capillaries, and choroid (P<0.004).

23 The shape of the blood velocity profile in retinal arteries changed systematically during the cardi

24 Flow velocity in the central retinal artery (CRA) and vein (CRV), and the short poste

25 ose To identify and characterize the central retinal artery (CRA) using cone-beam CT (CBCT) images ob

26 posterior ciliary artery (PCA), and central retinal artery (CRA) were measured using Color Doppler U

27 ort posterior ciliary artery (SPCA), central retinal artery (CRA), central retinal vein (CRV), peripa

28 In the central retinal artery (CRA), the mean PSV decreased 16% (P = 0.

29 onsistently demonstrated the in vivo central retinal artery, demonstrating excellent potential for mu

30 erved a significant NO-dependent increase in retinal artery diameter in Cav-1 knockout mice, suggesti

31 The central retinal artery directly provides capillaries to the nerv

32 al layer, and choroidal thicknesses, central retinal artery equivalent (CRAE), and central retinal ve

33 raphs (1 eye/participant) determined central retinal artery equivalent (CRAE), central retinal vein e

34 raphs (1 eye/participant) determined central retinal artery equivalent (CRAE), central retinal vein e

35 Central retinal artery equivalent (CRAE), central retinal venule

36 m the optic disc), summarized by the central retinal artery equivalent (CRAE), the widths of the 6 la

37 mean overall significant decrease of central retinal artery equivalent and central retinal vein equiv

38 Mean central retinal artery equivalent in healthy control subjects wa

39 Central retinal artery equivalents ranged from 156.04 +/- 16.82

40 le SD-OCT assisted method of differentiating retinal arteries from veins.

41 te FA to be performed and if connection with retinal artery is proven, parents should be informed on

42 es as the blood pressure exiting the central retinal artery is varied between 28 and 40 mm Hg is used

43 endothelial basement membrane of developing retinal arteries, leading to vessel maturation.

44 The central retinal artery, long posterior ciliary arteries, and cho

45 riction, pupillary abnormalities, attenuated retinal arteries, loss of outer retinal signals on spect

46 ns included vitreous hemorrhage (2%), branch retinal artery obstruction (1%), ophthalmic artery spasm

47 ent ophthalmic artery spasm (n = 1), central retinal artery obstruction (n = 1), branch retinal arter

48 l retinal artery obstruction (n = 1), branch retinal artery obstruction (n = 2), and peripheral retin

49 s of all our patients diagnosed with central retinal artery obstruction between 1997 and 2010.

50 oxia-related metabolic insults after central retinal artery obstruction.

51 vein occlusion (7 eyes, 7 patients), central retinal artery occlusion (1 eye, 1 patient), and idiopat

52 We present a single case of branch retinal artery occlusion (BRAO) in a 55 year-old Caucasi

53 CRVO), cilioretinal artery occlusion, branch retinal artery occlusion (BRAO), and anterior ischaemic

54 set of paracentral scotoma, caused by branch retinal artery occlusion (BRAO), as a leading symptom of

55 focal retinal dysfunction related to branch retinal artery occlusion (BRAO).

56 0,2), choroidal infarction (0,1), and branch retinal artery occlusion (BRAO; 0,1).

57 estigate the visual outcome of acute central retinal artery occlusion (CRAO) after current standard t

58 eport, we present for the first time central retinal artery occlusion (CRAO) and central retinal vein

59 ygen therapy (HBOT) in patients with central retinal artery occlusion (CRAO) by analyzing changes in

60 Central retinal artery occlusion (CRAO) confers a high risk of a

61 nd compare macular vessel density in central retinal artery occlusion (CRAO) eyes with retinal arteri

62 In the eye, central retinal artery occlusion (CRAO) is a rare complication i

63 Central retinal artery occlusion (CRAO) is an ophthalmologic eme

64 aculopathy (PAMM) that progressed to central retinal artery occlusion (CRAO) on spectral domain-optic

65 been suggested for the treatment of central retinal artery occlusion (CRAO) such as ocular massage,

66 study was to evaluate a rat model of central retinal artery occlusion (CRAO) that simulates the clini

67 essed from an incomplete to complete central retinal artery occlusion (CRAO).

68 intensity of each retinal layers in central retinal artery occlusion (CRAO).

69 hemic optic neuropathy (NA-AION) and central retinal artery occlusion (CRAO).

70 outcome analyses yielded similar results for retinal artery occlusion (HR: 1.13, 95% CI: 1.02-1.26) a

71 e of this study was to report case series of retinal artery occlusion (RAO) as one of the significant

72 overy in a 32-year-old woman with iatrogenic retinal artery occlusion (RAO) following glabella calciu

73 To study the incidence and risk factors for retinal artery occlusion (RAO) in cardiac surgery.

74 This meta-analysis examined whether retinal artery occlusion (RAO) increases the risk of acu

75 in occlusion (RVO), 16 patients (20.5%) with retinal artery occlusion (RAO), and 2 patients (2.6%) wi

76 ized as having retinal vein occlusion (RVO), retinal artery occlusion (RAO), and any retinal vascular

77 igraine is associated with increased risk of retinal artery occlusion (RAO).

78 In total, 113 patients with retinal artery occlusion and 463 patients with retinal v

79 Of 113 patients with retinal artery occlusion and 463 patients with retinal v

80 ements limitation, an infero-temporal branch retinal artery occlusion and multiple choroidal emboli.

81 Twenty-five patients (42%) had a confirmed retinal artery occlusion based on OCT and follow-up exam

82 Cases of central retinal artery occlusion demonstrate marked hypoperfusio

83 We present findings of central retinal artery occlusion due to fillers in 3 patients sh

84 One case of central retinal artery occlusion due to peribulbar anesthetic in

85 Patients with retinal artery occlusion had higher risks of ischemic st

86 sed the patient as having acute nasal branch retinal artery occlusion in the left eye and bilateral N

87 In conclusion, retinal artery occlusion is a possible complication post

88 Retinal artery occlusion is a vascular entity caused by

89 Vision loss from central retinal artery occlusion occurring, after cosmetic facia

90 oing hemodialysis who subsequently developed retinal artery occlusion or retinal vein occlusion compa

91 nt with a history of left eye blindness from retinal artery occlusion presented with rapidly declinin

92 Cases of central retinal artery occlusion showed marked loss of the deep

93 AIRR of retinal artery occlusion was 1.2 (95% CI: 0.8-1.7) with

94 Retinal artery occlusion was identified by International

95 Reversible branch retinal artery occlusion was produced by pressing with a

96 and Scopus using the following index terms: "retinal artery occlusion" OR "retinal ischemia" AND "thr

97 th increased risk of retinal stroke (central retinal artery occlusion), a subtype of ischemic stroke

98 ls without retinal occlusion, 6 had a branch retinal artery occlusion, and 9 had a central retinal ar

99 stimuli from a patient with a prior central retinal artery occlusion, and from two patients with sel

100 rized by the triad of encephalopathy, branch retinal artery occlusion, and sensorineural hearing loss

101 entricular assist device thrombosis, central retinal artery occlusion, cerebral venous sinus thrombos

102 each in the MicroShunt group having central retinal artery occlusion, choroidal hemorrhage (after pl

103 had significant visual complications (branch retinal artery occlusion, macular hole, and corneal deco

104 tic retinopathy, retinal vein occlusion, and retinal artery occlusion, may also be influenced by an a

105 ivided into central (CRAO) and branch (BRAO) retinal artery occlusion, ocular ischemic syndrome (OIS)

106 treating clinical conditions such as central retinal artery occlusion, retinoblastoma chemoembolizati

107 Under the impression of NAION with branch retinal artery occlusion, the patient was treated with i

108 gs of our similar study dealing with central retinal artery occlusion, where the young suffered much

109 loss and were diagnosed with a nonarteritic retinal artery occlusion.

110 ity should be considered in case with branch retinal artery occlusion.

111 s a differential diagnosis for patients with retinal artery occlusion.

112 for the pathophysiologic features of central retinal artery occlusion.

113 etinal artery occlusion, and 9 had a central retinal artery occlusion.

114 He was diagnosed to have central retinal artery occlusion.

115 He was found to have branch retinal artery occlusion.

116 glaucoma, giant cell arteritis, and central retinal artery occlusion.

117 spondents (4.6%; 95% CI, 1.8%-7.4%), central retinal artery occlusion.

118 for cerebral ischemic stroke as well as for retinal artery occlusion.

119 Patients with retinal artery occlusions (RAOs) are recommended to have

120 ients were excluded if they had a history of retinal artery occlusions (RAOs) or retinal vein occlusi

121 Although both retinal artery occlusions and retinal vein occlusions ar

122 Acute management of retinal artery occlusions involves a multidisciplinary a

123 temporary loss of vision due to intermittent retinal artery occlusions of different retinal arteries.

124 keratic precipitates, optic neuritis, branch retinal artery occlusions, and chorioretinal scarring in

125 No increased rate was observed for retinal artery occlusions.

126 sed on the intraluminal contrast patterns of retinal arteries on OCT, 3 independent graders categoriz

127 ury and may improve therapy in patients with retinal artery or ophthalmic artery obstructions.

128 ized by variable occlusion of large or small retinal arteries, or both, and perivenular abnormalities

129 antly higher signal intensity changes in the retinal arteries (P=.001, compared with oxygen inhalatio

130 o was significantly increased in the central retinal artery (P < 0.01), temporal posterior ciliary ar

131 were decreased significantly in the central retinal artery (P < 0.02 and P < 0.01, respectively), te

132 ed with baseline measurements in the central retinal artery, posterior ciliary arteries, and superior

133 eathing and discontinuity of small and large retinal arteries, sclerotic arteries, regions of vascula

134 induce full vasodilation in isolated porcine retinal arteries suggested that the observed in vivo eff

135 included nerve fiber layer infarcts, central retinal artery thrombosis, hypertrophy and occlusion of

136 vascular overlay of the retinal veins vs the retinal arteries to map the distribution of PAMM with en

137 measurements of the blood flow in a temporal retinal artery using the bidirectional laser Doppler tec

138 d changes were seen in PO(2) or SO(2) in the retinal arteries, veins, or A-V differences.

139 The filler presumably enters the central retinal artery via the rich external-internal carotid an

140 dings included ophthalmic artery and central retinal artery wall dissection, fracturing of the intern

141 Pulsation of the central retinal artery was detected after the intraocular pressu

142 previously reported that blood speeds in the retinal arteries were significantly lower in patients wi

143 We measured blood flow in a major temporal retinal artery with subjects seated and then while recli