コーパス検索結果 (1語後でソート)
通し番号をクリックするとPubMedの該当ページを表示します
1 ombination surgeries (coronary bypass and/or aortic surgeries).
2 ted with increased rates of aortic valve and aortic surgery.
3 stenosis and was not favorably influenced by aortic surgery.
4 rgencies and improve outcomes after thoracic aortic surgery.
5 ndently associated with the need for earlier aortic surgery.
6 N) in patients undergoing different types of aortic surgery.
7 mains a devastating complication of thoracic aortic surgery.
8 c dissection, ascending aortic aneurysm, and aortic surgery.
9 rate was not different in the subgroup with aortic surgery.
10 atastrophic complication of thoracoabdominal aortic surgery.
11 ctional class decline, and more aortic valve/aortic surgery.
12 c valve repair or replacement at the time of aortic surgery.
13 ces among hospitals in outcomes of abdominal aortic surgery.
14 Maryland hospitals that performed abdominal aortic surgery.
15 , and 26 (0.2%) underwent elective ascending aortic surgery.
16 and they independently predict the need for aortic surgery.
17 ssection (AD), all-cause death, and elective aortic surgery.
18 expected to lead to a delay in the need for aortic surgery.
19 ng of dissection, hypertension, and previous aortic surgery.
20 onfidence interval: 1.50 to 2.15), and later aortic surgery.
21 m, emergency surgery, and a history of prior aortic surgery.
22 ive TEE during the cardiac valve or proximal aortic surgery.
23 ex-related outcome differences after complex aortic surgery.
24 artery bypass grafting (CABG)/valve (2.4%), aortic surgery (1.7%), valve surgery (1.0%), and CABG (0
26 n, who had undergone gastric, pancreatic and aortic surgery 2.5 years earlier, presented with progres
27 (34%), aortic or mitral valve surgery (36%), aortic surgery (42%), and other cardiac surgery (16%).
28 Of the 872 936 patients undergoing valve or aortic surgery, 540 229 (61.89%) were male; 63 565 (7.28
29 ange, 6.6-8.9), 280 (36%) patients underwent aortic surgery (76% within 1 year) and 130 (17%) died (1
32 fulfilling Ghent criteria that underwent 136 aortic surgeries and were followed at this institution i
33 the study, 22836 (25.3%) had undergone open aortic surgery and 67467 (74.7%) had had infrainguinal b
35 ts with multiple risk factors, such as prior aortic surgery and emergent surgery, had a 3-year reinte
37 sk (23% aortic dissection and 18% preventive aortic surgery), and prevalence of extra-aortic features
39 people with Marfan syndrome and no previous aortic surgery, ARBs reduced the rate of increase of the
40 with Marfan syndrome with prior prophylactic aortic surgery are at substantial risk for type B aortic
42 ic events (aortic dissection or prophylactic aortic surgery), arrhythmic events (defined as sustained
45 aortic surgery) at baseline and prophylactic aortic surgery at baseline were associated with the pres
46 c event (type A/B dissection or prophylactic aortic surgery) at baseline and prophylactic aortic surg
48 ified 51 282 patients who underwent thoracic aortic surgery between 2007 and 2011 at 940 North Americ
50 ent isolated SAVR (with or without ascending aortic surgery) between January 1, 2005, and December 31
51 eased risk of aortic dissection and need for aortic surgery, compared to patients on other antihypert
54 ve a 25% lower rate of alive discharge after aortic surgery, despite adjustment for pre/peri- and pos
56 lence of both aortic dissection and elective aortic surgery during long-term follow-up was higher in
57 erwent aortic valve replacement +/- proximal aortic surgery for BAV stenosis (n = 137, BAV group) and
59 termine whether retroperitoneal approach for aortic surgery has certain physiologic, technical advant
60 question whether laparoscopic techniques for aortic surgery have a significant physiologic advantage
61 ssociated with cardiovascular death, whereas aortic surgery (hazard ratio, 0.46; confidence interval,
62 69-6.231) was associated with death, whereas aortic surgery (hazard ratio, 0.47; 95% CI, 0.27-0.81) w
63 B aortic dissection were prior prophylactic aortic surgery (hazard ratio: 2.1; 95% confidence interv
64 rysms was associated with a greater need for aortic surgery (hazard ratio: 3.4; 95% confidence interv
66 ignificantly more likely to undergo thoracic aortic surgery in late follow-up (10.4 +/- 4.3%) compare
67 coronary artery bypass surgery or ascending aortic surgery) in Sweden between January 1, 2003, and D
69 adults undergoing cardiac valve or proximal aortic surgery, intraoperative TEE use was associated wi
71 n a subgroup of 95 patients with no previous aortic surgery or dissection followed up for 3.3 2.6 yea
72 international criteria, had not had previous aortic surgery or dissection, and came to our center at
73 re included, provided they had not undergone aortic surgery or had an aortic dissection before their
74 nderwent a high-risk vascular procedure-open aortic surgery or infrainguinal bypass-during the study
75 predictors of AAI were a history of previous aortic surgery (OR 3.4; 95% CI, 1.6 to 7.6; P=0.002), ab
76 r diagnosis, aortic valve surgery, ascending aortic surgery, or any cardiovascular surgery was requir
77 patients undergoing carotid endarterectomy, aortic surgery, or lower extremity revascularization ove
80 plementation of a multidisciplinary thoracic aortic surgery program (TASP) at our institution, with d
81 t have investigated the long-term results of aortic surgery still report a significant incidence of p
83 ily history of AD had a higher risk of later aortic surgery than those with AD without a family histo
84 ily history of AD had a higher risk of later aortic surgery than those with no family history of AD.
86 ual patient data from patients with no prior aortic surgery to estimate the effects of: ARB versus co
90 combined cardiac surgical procedure or major aortic surgery were included, excluding those who were i
91 lts approximating those of elective proximal aortic surgery when operations are performed by a high-v
92 ents (498 [30.1%] female) underwent thoracic aortic surgery with hypothermic circulatory arrest betwe