ライフサイエンスコーパス: vascular surgery

1 linical settings (e.g., trauma, shock, major vascular surgery).

2 uction in morbidity for elective general and vascular surgery).

3 ral surgery, and 42801 procedures (18.1%) in vascular surgery.

4 including the use and timing of prophylactic vascular surgery.

5 rts in preventing this major complication of vascular surgery.

6 plications in patients undergoing noncardiac vascular surgery.

7 o ePTFE as a vascular conduit for peripheral vascular surgery.

8 r no revascularization before elective major vascular surgery.

9 omplex cases in pelvic, liver, pancreas, and vascular surgery.

10 rm the procedure: cardiology, radiology, and vascular surgery.

11 lity in patients undergoing major noncardiac vascular surgery.

12 peripheral arterial disease before elective vascular surgery.

13 and mortality in patients who have undergone vascular surgery.

14 cations were the most common indications for vascular surgery.

15 rioperative myocardial infarction (MI) after vascular surgery.

16 using ultrasound in 187 patients undergoing vascular surgery.

17 ful in the management of patients undergoing vascular surgery.

18 th atherosclerosis and restenosis seen after vascular surgery.

19 mplete an additional year-long fellowship in vascular surgery.

20 icial in protection against restenosis after vascular surgery.

21 esults in outcome improvement after elective vascular surgery.

22 omes in a large population of candidates for vascular surgery.

23 ascular Surgery and the European Society for Vascular Surgery.

24 nclude manual compression, stent grafts, and vascular surgery.

25 icoagulant of choice, such as for cardiac or vascular surgery.

26 uring a hospitalization for elective general/vascular surgery.

27 ted for preventing restenosis following open vascular surgery.

28 atients undergoing major elective general or vascular surgery.

29 up classification of general, orthopedic, or vascular surgery.

30 (without postoperative heparin) for cardiac/vascular surgery.

31 rectal, pediatric, neurological surgery, and vascular surgery.

32 in patients undergoing general elective and vascular surgery.

33 cal outcome in high-risk patients undergoing vascular surgery.

34 ong awaited and much anticipated advance for vascular surgery.

35 complications within 30 days of general and vascular surgery.

36 alth Foundation (UK) and European Society of Vascular Surgery.

37 up classification of general, orthopedic, or vascular surgery.

38 guidelines for risk stratification in major vascular surgery.

39 ients with a positive stress test undergoing vascular surgery.

40 up classification of general, orthopedic, or vascular surgery.

41 or alternatives to native vein or artery for vascular surgery.

42 e perioperative renal injury associated with vascular surgery.

43 n significantly improve outcomes after major vascular surgery.

44 on outcome in patients undergoing peripheral vascular surgery.

45 er C-indices (0.778, general surgery; 0.638, vascular surgery; 0.760, general plus vascular surgery)

46 Data from 2,747 (general surgery 2,251; vascular surgery 496) non-VA hospital cases were compare

47 Data included 2229 general or vascular surgeries, 699 of which were conducted after NS

48 to data from 41,360 (general surgery 31,393; vascular surgery 9,967) VA cases.

49 r in the 66.7% of 13,863 patients undergoing vascular surgery (95% CI, 65.9%-67.5%) than in the 37.4%

50 e-specific mortality for patients undergoing vascular surgery, a proportional subdistribution hazards

51 The decrease in vascular surgery also began before DHR but continued aft

52 ary-artery revascularization before elective vascular surgery among patients with stable cardiac symp

53 py to prevent limb amputation, and both open vascular surgery and endovascular therapy play a key rol

54 uthors initiated an integrated fellowship in vascular surgery and interventional radiology and now re

55 The attitudes of vascular surgery and interventional radiology faculty an

56 Vascular surgery and interventional radiology faculty me

57 fellowship provides exceptional training for vascular surgery and interventional radiology fellows in

58 Integration of vascular surgery and interventional radiology fellowship

59 erative AKI is common in patients undergoing vascular surgery and is associated with a high risk for

60 n elderly patients recovering from inpatient vascular surgery and nosocomial infections did not occur

61 y receiving such medications; interestingly, vascular surgery and patients with known cardiac history

62 re was no significant difference between the vascular surgery and radiology fellows in either the spe

63 During the fellowship, vascular surgery and radiology fellows perform both vasc

64 Both vascular surgery and radiology-based fellows spend one q

65 ed treatment guidelines from the Society for Vascular Surgery and the European Society for Vascular S

66 C-indices of 0.942 (general surgery), 0.915 (vascular surgery), and 0.934 (general plus vascular surg

67 for general surgery, 15.5% (128 of 828) for vascular surgery, and 10.7% (36 of 336) for gynecologic

68 however, rates of AKI were high (24%) after vascular surgery, and increased steadily after gastroint

69 tions such as stroke, myocardial infarction, vascular surgery, and organ transplant.

70 , general anesthesia, head and neck surgery, vascular surgery, and prolonged surgery.

71 hopedic surgery, general surgery, peripheral vascular surgery, and urologic surgery.

72 Single-quality indicators in vascular surgery are often not distinctive and insuffici

73 l paradigms may be necessary in which either vascular surgery as an essential component is abandoned

74 gery procedures that required intraoperative vascular surgery assistance between January 2010 and Jun

75 Exposures: Intraoperative vascular surgery assistance stratified by need for vascu

76 The indications for vascular surgery assistance were 156 spine exposure (52%

77 pectrum of cases that require intraoperative vascular surgery assistance.

78 of 1,226,479 patients undergoing general and vascular surgery at 263 hospitals participating in ACS N

79 ta for 48,720 patients undergoing general or vascular surgery at 52 hospitals between July 2012 and A

80 ts (n = 184,843) undergoing major general or vascular surgery between October 1, 2001, and September

81 Similarly, older age, vascular surgery, bleeding event, and renal dysfunction

82 The cohort comprised 1,081 consecutive vascular surgery candidates at five medical centers.

83 ostic impact, will reliably stratify risk in vascular surgery candidates referred for dipyridamole-th

84 perfusion and dobutamine echocardiography in vascular surgery candidates, a synopsis of predictive es

85 alidate a Bayesian risk prediction model for vascular surgery candidates.

86 diction models tend to underestimate risk in vascular surgery candidates.

87 costs of emergency and elective general and vascular surgery cases (N = 190,826) within 34 hospitals

88 ft repair of the thoracic aorta at the local vascular surgery clinic.

89 Vascular surgery continues to rapidly evolve, most notab

90 with a positive stress test undergoing major vascular surgery demonstrated significantly fewer periop

91 eon charges, and the collection rate for the vascular surgery division (30.2%) obtained from the Facu

92 inguinal interventions performed by a single vascular surgery division.

93 ary-artery revascularization before elective vascular surgery does not significantly alter the long-t

94 rth American and European sites, we compared vascular surgery (e.g., thrombectomy or bypass surgery)

95 ing chief general surgery resident (GSR) and vascular surgery fellow (VSF).

96 ogy fellows there was uniform agreement that vascular surgery fellows benefit from training in nonvas

97 erformed by all interventional radiology and vascular surgery fellows from a prospectively maintained

98 Vascular surgery fellows then complete an additional yea

99 mbers wanted additional training in clinical vascular surgery for the radiology-based fellows.

100 ents who had undergone inpatient general and vascular surgery from 2005 through 2007, using data from

101 lt patients undergoing elective or emergency vascular surgery from 2005 to 2010.

102 cohort of 3646 patients underwent inpatient vascular surgery from January 1, 2000, to November 30, 2

103 Nonadherence to the Society for Vascular Surgery guidelines for post-EVAR imaging was no

104 above age 65 years undergoing elective major vascular surgery had far worse 30-day outcomes when comp

105 Patients with ESRD undergoing elective vascular surgery have a significantly elevated risk of p

106 The functional benefits of vascular surgery have been traditionally assessed by tre

107 Technological advances in vascular surgery have changed the field dramatically ove

108 iency (HR: 2.26; 95% CL: 1.51 to 3.39]), and vascular surgery (HR: 1.48; 95% CL: 1.02 to 2.15]) were

109 There were 59 vascular surgeries in the cohort, with one death during

110 Patients undergoing general and vascular surgery in high-mortality hospitals have simila

111 ytopenia (HIT) IgG antibodies before cardiac/vascular surgery in patients who have serologically-conf

112 cardiac complications in patients undergoing vascular surgery in this retrospective study.

113 Vascular surgery in World War II has long been defined b

114 counts to determine the American practice of vascular surgery in World War II.

115 have evaluated the use of fibrin sealants in vascular surgery, including aortic anastomosis in an ani

116 Routine PAC use in elective vascular surgery increases the volume of fluid given to

117 irs and acquiring clinical experience in the vascular surgery inpatient and outpatient services.

118 f 995 patients who had undergone general and vascular surgery investigated the association of periope

119 Lower-extremity vascular surgery is most often indicated for patients wi

120 tery revascularization before elective major vascular surgery is unclear.

121 ta-blockers in high-risk patients undergoing vascular surgery merits further evaluation.

122 y(CT) scan before major, elective general or vascular surgery (N = 1453).

123 surgery, upper abdominal surgery, peripheral vascular surgery, neck surgery, emergency surgery, album

124 Patients needing vascular surgery often possess management challenges tha

125 Service lines in heart and vascular surgery, oncology, and pediatrics have been org

126 nine patients having aortic or infrainguinal vascular surgery or lower extremity amputation were incl

127 are practicing in either general surgery or vascular surgery, or obtaining additional transplant tra

128 pnia during reperfusion states such as major vascular surgery, organ transplantation, tissue-graft su

129 performing elective orthopedic, plastic, or vascular surgery PARTICIPANTS:: All operating theatres s

130 mong a systematic sample of 4119 general and vascular surgery patients at a major academic hospital,

131 study, medical records were reviewed for all vascular surgery patients at a tertiary care university

132 was implemented for all general surgery and vascular surgery patients at our institution in August 2

133 ta were compared to the data for general and vascular surgery patients collected during a concurrent

134 g-term prognostic information in cardiac and vascular surgery patients.

135 tract clinical data from general surgery and vascular surgery patients.

136 ify factors driving end-of-life decisions in vascular surgery patients.

137 ircumstances surrounding end-of-life care in vascular surgery patients.

138 leading cause of morbidity and mortality in vascular surgery patients.

139 in cardiothoracic surgery, general surgery, vascular surgery, pediatric surgery, obstetrics/gynecolo

140 Among the 3646 patients undergoing vascular surgery, perioperative AKI occurred in 1801 (49

141 Certain aspects of care are common to all vascular surgery procedures, including thoracoabdominal

142 The Society for Vascular Surgery recommends annual surveillance with com

143 Renal dysfunction after major vascular surgery remains a significant problem.

144 s were reviewed to estimate baseline CC on a vascular surgery rotation.

145 Among 5254 Society for Vascular Surgery's Vascular Registry (1999 CAS; 3255 CEA

146 Medicare data (2000-2009) to the Society for Vascular Surgery's Vascular Registry (2005-2008) and the

147 ely to be at high surgical risk (Society for Vascular Surgery's Vascular Registry: 96.7% versus 44.5%

148 Trauma and vascular surgery substantially decreased.

149 therosclerotic aortic tissue obtained during vascular surgery than in normal aortic tissue, suggestin

150 In vascular surgery, the aOR for death favored the high FFP

151 and Research Trust, the European Society of Vascular Surgery, the International Angiology Scientific

152 iate application in cardiac, transplant, and vascular surgery, the mechanisms that underlie thrombus

153 Median reliabilities ranged from 0.05 for vascular surgery to 0.79 for gastroenterology and otolar

154 review the recent literature on intracranial vascular surgery, to summarize the main findings, and to

155 To continue providing this valuable service, vascular surgery trainees need to continue to learn the

156 As vascular surgery transitions to the outpatient setting,

157 ery, especially in the context of decreasing vascular surgery volume with the adoption of endovascula

158 The median time from randomization to vascular surgery was 54 days in the revascularization gr

159 ne in atherosclerotic tissue obtained during vascular surgery was sixfold higher than that of normal

160 tly, ESRD patients undergoing elective major vascular surgery were also at higher risk for composite

161 A total of 455 patients undergoing open vascular surgery were followed for 30 days for the occur

162 NSQIP methods and risk models in general and vascular surgery were fully applicable to PS hospitals.

163 Both angioplasty and vascular surgery were initially successful, but recurren

164 n which adult patients undergoing cardiac or vascular surgery were randomized to different transfusio

165 ESRD patients undergoing elective major vascular surgery were significantly more likely than non

166 0.638, vascular surgery; 0.760, general plus vascular surgery) were obtained following application of

167 (vascular surgery), and 0.934 (general plus vascular surgery) were obtained following application of

168 Patients undergoing vascular surgery who are at high cardiac risk should als

169 for identifying patients who have undergone vascular surgery who have an increased risk for short-te

170 undergoing elective infrainguinal or aortic vascular surgery who were admitted to the intensive care