ライフサイエンスコーパス: infrarenal

1 and no significant difference in the rate of infrarenal (238 [77%]) and complex (51 [16%]) repairs.

2 ted with open surgical repair, including 216 infrarenal (81%), 43 complex (16%), and 9 ruptured (3%)

3 lective EVAR or open repair for asymptomatic infrarenal AAA between January 1, 2005, and December 31,

4 An infrarenal AAA model is needed to study inflammatory mec

5 that the typical length and position of this infrarenal AAA model was statistically similar to the le

6 Infrarenal AAA was created in swine by balloon overstret

7 Patients who underwent EVAR and OPEN for infrarenal AAA were identified in the NSQIP database fro

8 sk and treatment selection for patients with infrarenal AAA.

9 These results reveal that infrarenal AAAs can be safely and successfully treated i

10 d for traditional CVD risk factors, enlarged infrarenal abdominal aorta (hazard ratio=1.57; 95% confi

11 lts initially free of clinical CVD, enlarged infrarenal abdominal aorta and lower abdominal aorta, on

12 very of collagen to the area surrounding the infrarenal abdominal aorta halfway between the right ren

13 oracic aorta, descending thoracic aorta, the infrarenal abdominal aorta, and lower abdominal aorta.

14 The majority of infrarenal abdominal aortic aneurysm (AAA) repairs in th

15 ns were significantly elevated compared with infrarenal abdominal aortic aneurysm repair (p < .05).

16 5 years) underwent endovascular repair of an infrarenal abdominal aortic aneurysm with an endoluminal

17 All patients electively treated for infrarenal abdominal aortic aneurysm with endovascular r

18 Following elective repair of infrarenal abdominal aortic aneurysm, significantly more

19 ents before they underwent elective EVAR for infrarenal abdominal aortic aneurysm.

20 edtronic AneuRx stent-graft in patients with infrarenal abdominal aortic aneurysms (AAAs) who were tr

21 r the advent of an endovascular approach for infrarenal abdominal aortic aneurysms, attempts have bee

22 the following groups: treated and untreated infrarenal abdominal aortocaval fistula and treated and

23 patients (45 men) with aortic aneurysms, 47 infrarenal (abdominal aortic) and 6 thoracic (thoracic a

24 re recorded for abdominal aorta (suprarenal, infrarenal, and aortic bifurcation regions and total).

25 (n = 2, 6%), juxtarenal aorta (n = 3, 10%), infrarenal aorta (n = 10, 32%), and renal artery (n = 1,

26 s; mean age, 75 years) with aneurysms of the infrarenal aorta (n = 36) or iliac artery (n = 18) under

27 =4), descending (n=34), paravisceral (n=15), infrarenal aorta (n=63), and multiple (n=7).

28 nd for one-channel CT, 3.0 mm and 2.0 to the infrarenal aorta and 5.0 mm and 2.0 to the femoral arter

29 and vein were anastomosed to the recipient's infrarenal aorta and cava; bowel continuity was restored

30 ted Kingdom, New Zealand, and Australia with infrarenal aorta diameter>/=30 mm or ruptured AAA and 54

31 E-deficient mice were transplanted into the infrarenal aorta of 10-week-old female F1 mice.

32 ary artery segments were interposed into the infrarenal aorta of severe combined immunodeficiency/bei

33 bbits had less atherosclerosis (intima-media infrarenal aorta ratio of 1.18+/-0.08 versus 1.57+/-0.08

34 interest was drawn on each plaque within the infrarenal aorta to assess mean standardized uptake valu

35 I (descending thoracic aorta) and zone III (infrarenal aorta).

36 ngs were obtained from the suprarenal aorta, infrarenal aorta, and proximal renal arteries of 10 volu

37 ing condition that predominantly affects the infrarenal aorta.

38 in each group) by clamping and releasing the infrarenal aorta.

39 chemia induced by temporary occlusion of the infrarenal aorta.

40 s used to replace the CB.17 SCID/beige mouse infrarenal aorta.

41 liver transplant recipient who developed an infrarenal aortic aneurysm secondary to Salmonella bacte

42 To markedly reduce infrarenal aortic blood flow and femoral arterial pressu

43 Of those screened, 416 had an AAA (infrarenal aortic diameter > or = 3.0 cm or an infrarena

44 ver, data regarding the associations between infrarenal aortic diameter and LE-PAD are limited, espec

45 Several studies suggest that infrarenal aortic diameter is associated with lower-extr

46 Infrarenal aortic diameters > 2.0 cm are associated with

47 Compared with diameters < 2.0 cm, infrarenal aortic diameters 2.0 to < 3.0 cm were associa

48 minal aortic aneurysms (AAAs) and increasing infrarenal aortic diameters and their relationship to fu

49 eek), was associated with the presence of an infrarenal aortic graft in 14 (54%) of 26 patients, was

50 al recruited 100 patients with a nonruptured infrarenal aortic or iliac aneurysm between September 20

51 were compared with those undergoing elective infrarenal aortic reconstruction and carotid endarterect

52 clinical pathway was developed for elective infrarenal aortic reconstructions by a multidisciplinary

53 mentation of a clinical pathway for elective infrarenal aortic reconstructions dramatically decreased

54 Pairs of 3-cm infrarenal aortic segments were exchanged between mixed

55 Infrarenal aortic specimens were obtained from 25 patien

56 AAA risk factor, is accompanied by segmental infrarenal aortic stiffening.

57 7, 21, 35, and 56 days after creation of an infrarenal aortocaval fistula.

58 In 25-kg mongrel dogs, patulous vein patch infrarenal aortoplasty with iliac vein produces a fusifo

59 nal/infrarenal diameter and total suprarenal/infrarenal area in the angiotensin II-treated Apoe(-/-)/

60 compared with 2 of 51 grafts (3.9%) using an infrarenal arterial conduit (P = 0.008).

61 ve dissection at the time of LTx, and use of infrarenal arterial graft contribute to development of P

62 g the peri-operative period of endovascular (infrarenal, branched, and fenestrated) and open aortic r

63 cordant reductions in the maximum suprarenal/infrarenal diameter and total suprarenal/infrarenal area

64 of the aorta secondary to construction of an infrarenal donor iliac artery graft during a retransplan

65 Only pATM levels increased after infrarenal endovascular aortic repair (P<0.04).

66 (n=43), fenestrated/branched EVAR (n=9), and infrarenal EVAR (n=71).

67 a relatively safe alternative compared with infrarenal fixation in terms of short- to midterm follow

68 Comparisons between transrenal fixation and infrarenal fixation were found in seven studies.

69 difference was found between transrenal and infrarenal fixation with respect to renal dysfunction, r

70 For transrenal versus infrarenal fixation, the combined odds ratio, 95% confid

71 analysis to compare transrenal fixation with infrarenal fixation.

72 epatic revascularization via placement of an infrarenal graft.

73 The use of reduced size grafts and infrarenal iliac arterial conduits are associated with a

74 ide arterial inflow in 22 transplants and an infrarenal iliac conduit in 51 transplants.

75 uence was used to measure T1 of blood in the infrarenal inferior vena cava and renal veins after intr

76 The infrarenal IVC, lungs, heart, liver, kidneys, and spleen

77 A commonly used infrarenal mouse AAA model was used to determine the tar

78 atherosclerotic AAA most commonly affect the infrarenal portion of the abdominal aorta, patients with

79 was determined by intima-media ratio of the infrarenal portion of the aorta.

80 Aortic allografts were anastomosed to the infrarenal portion of the recipient's abdominal aorta.

81 years) who survived 24 hours after repair of infrarenal ruptured AAA.

82 is abdominal communication was via the large infrarenal space posteriorly and the circumferential ext

83 frarenal aortic diameter > or = 3.0 cm or an infrarenal/suprarenal ratio > or = 1.2).

84 measure the aortic diameter and the ratio of infrarenal to suprarenal measurement of aortic diameter

85 ned as aortic diameter of 3 cm or greater or infrarenal-to-suprarenal ratio of 1.2 or greater.

86 Under fluoroscopic guidance, the infrarenal vena cava was occluded with a balloon cathete