ライフサイエンスコーパス: arterial occlusion

1 pulmonary angiography failed to demonstrate arterial occlusion.

2 thrombolytic therapy in patients with acute arterial occlusion.

3 le treatment, although it is associated with arterial occlusion.

4 such as blindness and stroke are related to arterial occlusion.

5 nd surgery as the initial treatment of acute arterial occlusion.

6 ne, leading to vasospasm and, ultimately, to arterial occlusion.

7 e woman developed clinical signs of an acute arterial occlusion.

8 use were relatively resistant to NMDA and to arterial occlusion.

9 onoclonal antibody injected 1 hour after the arterial occlusion.

10 t intervals ranging 12 to 96 hours after the arterial occlusion.

11 eries that can restore circulation following arterial occlusion.

12 n anterior circulation proximal intracranial arterial occlusion.

13 Anterior circulation proximal intracranial arterial occlusion.

14 ly sufficient for adequate reperfusion after arterial occlusion.

15 cclusion plethysmography) after 5 minutes of arterial occlusion.

16 between parameters (p<0.0001); 40 (48%) had arterial occlusion.

17 botic agents to restore vessel patency after arterial occlusion.

18 fluorescence of human epidermal cells during arterial occlusion.

19 ygenation of hemoglobin within 30 s of renal arterial occlusion.

20 d (1 mg/kg intravenously) 1 h after onset of arterial occlusion.

21 monophasic CT angiography ipsilateral to the arterial occlusion.

22 the degree of tissue perfusion acutely after arterial occlusion.

23 k for infarction in patients with persistent arterial occlusion.

24 emia is the increase in blood flow following arterial occlusion.

25 dent aggregation that may support thrombotic arterial occlusion.

26 ccurs when therapy is initiated 1 week after arterial occlusion.

27 plastic intimal lesions leading to segmental arterial occlusion.

28 aemic stroke due to cervical and/or cerebral arterial occlusions.

29 ections of N-methyl-D-aspartate (NMDA) or to arterial occlusions.

30 cated by aneurysm formation, dissection, and arterial occlusions.

31 Of 306, 282 (92%) had arterial occlusions.

32 the natural history of proximal intracranial arterial occlusions.

33 stabilize the developing plaques and prevent arterial occlusions.

34 s preferable to air breathing during retinal arterial occlusion, (2) hyperoxia during occlusion is be

35 rring diagnoses were isolated branch retinal arterial occlusion (5/16), combined central retinal vein

36 During arterial occlusion, a decrease in oxyhemoglobin correspo

37 Mice that lack sema4D exhibit delayed arterial occlusion after vascular injury in vivo, and th

38 After 1-hour coronary arterial occlusion and 2-hour reperfusion, three groups

39 tive PI3Kgamma (PI3Kgamma KD) showed reduced arterial occlusion and accumulation of monocytes and T c

40 d flow and total hyperemia in the calf after arterial occlusion and also after isotonic ankle exercis

41 Arterial occlusion and baseline perfusion lesion extent

42 pted atherosclerotic plaque initiates abrupt arterial occlusion and is the proximate event responsibl

43 e regulated to avoid spontaneous bleeding or arterial occlusion and organ damage.

44 ith ischemic stroke with a proximal cerebral arterial occlusion and salvageable tissue on CT perfusio

45 ed that late secondary cerebral injury after arterial occlusion and subsequent recanalization may lim

46 udies with different modes of EVT, different arterial occlusions and different collateral grading met

47 ease (PAD) generates tissue ischemia through arterial occlusions and insufficient collateral vessel f

48 ion is beneficial in promoting recovery from arterial occlusion, and (3) hyperoxia has value even if

49 y Doppler/angiography) on the side of ocular arterial occlusion, and echocardiography.

50 small infarct core, a proximal intracranial arterial occlusion, and moderate-to-good collateral circ

51 r infarct growth in patients with persistent arterial occlusion, and with a high incidence of asympto

52 sponse to a 10 min period of brachiocephalic arterial occlusion (BCO).

53 ulmonary hypertension (SAPH) associated with arterial occlusion by proliferating endothelial cells, a

54 ry hypertension associated with precapillary arterial occlusion by proliferating endothelial cells.

55 The prevention of arterial occlusion by the inhibition of clot formation o

56 scans generally indicate proximal pulmonary arterial occlusion by thromboemboli or, rarely, other pr

57 between the recruitment of capillaries after arterial occlusion (capillary density during postocclusi

58 When subjected to photothrombotic arterial occlusion, CD73(-/-) mice exhibited significant

59 with ASIC(3)-like currents is greater after arterial occlusion compared with control.

60 RATIONALE: Atherosclerotic-arterial occlusions decrease tissue perfusion causing is

61 ation and workup of a patient with a retinal arterial occlusion depends on many factors, including th

62 Arterial occlusion did not activate responsive units, su

63 during handgrip exercise and after transient arterial occlusion did not differ among the three treatm

64 bjected to 45 minutes of superior mesenteric arterial occlusion followed by 90 minutes of reperfusion

65 UWFA 4 of 24 (16.7%) SCD eyes had peripheral arterial occlusion (Goldberg I), and 20 of 24 eyes (83.3

66 , whereas the level of proximal intracranial arterial occlusion (ICA vs MCA-M1 vs MCA-M2) was not.

67 platelet responses with delay in the time of arterial occlusion in an in vivo model of thrombosis and

68 tant than the level of proximal intracranial arterial occlusion in determining outcomes.

69 Production of PDGF has a role in arterial occlusion in GCA.

70 severe angioproliferative PH associated with arterial occlusion in rats.

71 Eligible patients had a proximal arterial occlusion in the anterior cerebral circulation

72 ed unstable thrombus formation and prolonged arterial occlusion in the FeCl(3) in vivo thrombosis mod

73 Microdialysis provided an early warning of arterial occlusion in transplanted grafts with delayed g

74 the stability of arterial thrombi and delays arterial occlusion in vivo.

75 matrigel) or hind-limb ischemia produced by arterial occlusion in wild-type or monocyte chemotactic

76 cur by somewhat different mechanisms than do arterial occlusions in older adults.

77 sed data for patients with complete proximal arterial occlusions in the anterior circulation who rece

78 Retinal arterial occlusions in the young typically occur by some

79 tiology and diagnostic evaluation of retinal arterial occlusions in young people as well as potential

80 In mice, 14E11 prevented arterial occlusion induced by FeCl(3) to a similar degre

81 lowing a 10-min episode of bilateral carotid arterial occlusion-induced forebrain ischemia.

82 peripheral blood were lower in animals with arterial occlusion injected with the monoclonal antibody

83 reperfusion, IPo consisted of three 1-minute arterial occlusions, interspersed with 1-minute reperfus

84 mic stroke caused by a proximal intracranial arterial occlusion, intraarterial treatment is highly ef

85 Adaptive neovascularization after arterial occlusion is an important compensatory mechanis

86 hypothesized that even if the site of major arterial occlusion is recanalized after stroke, microvas

87 ver, the anatomic extent and distribution of arterial occlusion is too severe to permit relief of pai

88 The natural history of proximal intracranial arterial occlusion is variable, with poor outcomes overa

89 acute ischemic stroke caused by intracranial arterial occlusion leads to improved functional outcome

90 These complications are caused by thrombotic arterial occlusion localized at the site of high-risk at

91 d 72 h after permanent right middle cerebral arterial occlusion (MCAO) in adult male rats.

92 Using the arterial occlusion method, we compared five literature-b

93 ess into a disease mechanism that results in arterial occlusion, most frequently in atherosclerotic v

94 toimmune retinopathy (n = 3), branch retinal arterial occlusion (n = 3), branch retinal vein occlusio

95 In experiments terminated 12 hours after the arterial occlusion (n = 4), there were fewer necrotic ne

96 llowing arterial injuries at CT angiography: arterial occlusion (n = 7), arterial extravasation (n =

97 s preferable to air breathing during retinal arterial occlusion not only for maintaining b-wave ampli

98 Retinal arterial occlusions occur secondary to a multitude of me

99 rger (50-200-micron) particles reflected the arterial occlusion occurring more proximally.

100 space and that vascular remodeling following arterial occlusion occurs independently of myeloid speci

101 , MRA with ferumoxytol demonstrated complete arterial occlusion of an allograft.

102 18 years from the Netherlands) with proximal arterial occlusion of the anterior circulation, given in

103 hemic stroke caused by proximal intracranial arterial occlusion of the anterior circulation.

104 be an effective initial treatment for acute arterial occlusion of the legs.

105 -up CTA and MRA were assessed for persistent arterial occlusion or recanalization.

106 des venous thrombosis (partial or complete), arterial occlusion, or aneurysm.

107 mice were completely resistant to thrombotic arterial occlusion (P<0.01).

108 ow (RHBF) responses to 10 minutes of forearm arterial occlusion (plethysmography), blood pressure, an

109 Pulmonary arterial occlusion pressure is not thought to reflect le

110 Pulmonary arterial occlusion pressure waveform analysis may identi

111 We postulated that pulmonary arterial occlusion pressure waveform analysis, a techniq

112 al venous, pulmonary arterial, and pulmonary arterial occlusion pressures, and cardiac index.

113 al venous, pulmonary arterial, and pulmonary arterial occlusion pressures; cardiac output; and quadri

114 l velocity at rest (RBCV) and after 1-minute arterial occlusion (RBCVmax), and time taken to reach RB

115 Specifically, NF1 patients develop arterial occlusion resulting in tissue ischemia and sudd

116 1 patients develop renal artery stenosis and arterial occlusions resulting in cerebral and visceral i

117 Adaptive vascular remodeling in response to arterial occlusion takes the form of capillary growth (a

118 involves cardiovascular disorders, including arterial occlusions that result in cerebral and visceral

119 tive arterial extravasations, three isolated arterial occlusions, three cases of both arterial extrav

120 from the early damaging events triggered by arterial occlusion to the late regenerative processes un

121 ently inhibits thrombus formation and delays arterial occlusion upon vascular injury.

122 In MRP4-deficient mice, the arterial occlusion was delayed and the tail bleeding tim

123 ythmic handgrip exercise and after transient arterial occlusion was determined by strain gauge plethy

124 The presence of an arterial occlusion was inferred from the patient's sympt

125 after release of 1, 3 and 5 min of transient arterial occlusion was measured in the brachial artery w

126 odilation after release of 1, 3 and 5 min of arterial occlusion was significantly greater in patients

127 el of femoral artery thrombosis, the time to arterial occlusion was significantly prolonged in mice l

128 Confidence in identifying carotid arterial occlusions was also very high with this techniq

129 which also persists after complete proximal arterial occlusion) was also significantly greater at pl

130 pairs of iliofemoral arteries of 24 rabbits; arterial occlusions were documented angiographically.

131 Arterial occlusions were performed with a balloon-tipped

132 ize in a mouse stroke model (middle cerebral arterial occlusion) when injected (1 mg/kg intravenously

133 mic hypotension and bilateral common carotid arterial occlusion, which was followed by reperfusion.

134 t identifying subsets of patients with acute arterial occlusion who are most likely to benefit from t

135 ts with acute stroke (<6 hours) due to major arterial occlusion, without intracranial hemorrhage.