ライフサイエンスコーパス: open heart surgery

1 ion who are at too high of a risk to undergo open heart surgery.

2 1 month to 9 years duration) were studied at open heart surgery.

3 etes mellitus, renal failure, and history of open heart surgery.

4 r implantation of a prosthetic valve without open heart surgery.

5 hange in the unstretched valves despite sham open heart surgery.

6 of robotic technology for totally endoscopic open heart surgery.

7 ostoperative factors for children undergoing open heart surgery.

8 ply sedated in the intensive care unit after open heart surgery.

9 r the procedure in infants who had undergone open heart surgery.

10 for 2 days) versus placebo immediately after open heart surgery.

11 duct provision (inhaled NO) before and after open heart surgery.

12 ibrillation and decrease hospital stay after open heart surgery.

13 inus (CS) was measured in 32 patients during open heart surgery.

14 s strongly promote thrombus formation during open heart surgery.

15 6 patients in the postoperative period after open heart surgery.

16 elopmental outcomes or HRQOL 12 months after open heart surgery.

17 prolonged and severe stress when undergoing open heart surgery.

18 Patients with cCHD who underwent infant open heart surgery.

19 oprosthetic valve degeneration involves redo open-heart surgery.

20 r-cooler unit water tanks to patients during open-heart surgery.

21 complications and outcomes in patients after open-heart surgery.

22 dren less than one year of age who underwent open-heart surgery.

23 the brain in a cohort of neonates undergoing open-heart surgery.

24 n patients aged 60 years or older undergoing open-heart surgery.

25 owth factors into ischemic myocardium during open-heart surgery.

26 T(3) supplementation in children undergoing open-heart surgery.

27 congenital heart defects continue to require open-heart surgery.

28 ns (2.0%), pericardial complications (1.4%), open heart surgery (0.2%), and postoperative respiratory

29 persistent and LSP AF in patients undergoing open heart surgery (1) to test the hypothesis that persi

30 York (n=482) had a higher frequency of prior open heart surgery (44.0%) than patients from Ohio (n=60

31 onth to >15 years' duration) were studied at open heart surgery, 8 before and 1 during cardiopulmonar

32 r adverse outcome with CABG, including prior open-heart surgery, age >70 years, left ventricular ejec

33 s valid and accurate in predicting ARF after open-heart surgery; along with increasing its clinical u

34 aced on the atria of patients at the time of open heart surgery and brought out through the anterior

35 190 +/- 43 mg/day) started 24 to 48 h before open heart surgery and continued for four days postopera

36 the thrombotic and bleeding complications of open heart surgery and is produced by cleavage of prothr

37 ter-based interventions, with elimination of open heart surgery and new electronic devices enabling,

38 procedures with prolonged ischemia, such as open heart surgery and organ transplant.

39 pproach is employed, which requires multiple open-heart surgeries and significant attendant morbidity

40 Atrial fibrillation occurs commonly after open-heart surgery and may delay hospital discharge.

41 rcinica sternotomy site infections following open heart surgery at hospital A.

42 A total of 33,217 patients underwent open-heart surgery at the Cleveland Clinic Foundation (1

43 male patients (63 +/- 9.1 years) undergoing open-heart surgery at the San Diego Veterans Administrat

44 significantly reduces the prevalence of post-open heart surgery atrial fibrillation.

45 t reconstruction typically involves multiple open-heart surgeries because all existing graft material

46 e the frequency of atrial fibrillation after open-heart surgery but the effectiveness of oral amiodar

47 inoperable because of unacceptable risk for open-heart surgery by the local heart team.

48 At the time of ICU admission after open heart surgery, clinical criteria are evident that h

49 ociated with acute renal failure (ARF) after open-heart surgery continues to be distressingly high.

50 iable alternative to one of the foundational open-heart surgeries currently performed to treat single

51 nts with congenital heart disease undergoing open-heart surgery, de novo variants were associated wit

52 te-severe MR are turned down for traditional open heart surgery due to frailty and other existing co-

53 patients presenting with an ACS who undergo open-heart surgery during the same hospitalization is as

54 o medical management of heart failure, early open heart surgery (endocardectomy and valve repair/repl

55 ho had surgical data available and underwent open-heart surgery exclusive of heart transplantation as

56 ants in the early postoperative period after open heart surgery for congenital heart disease (CHD).

57 ) or enoxaparin (n=151) before proceeding to open heart surgery for urgent therapy during the same ho

58 Twenty-eight patients who underwent open-heart surgery for congenital heart defects.

59 Open heart surgery has long been considered the gold sta

60 of infants who have transient seizures after open heart surgery has not been studied.

61 A history of open-heart surgery has been a heavily debated topic in t

62 nts with symptomatic aortic stenosis without open-heart surgery; however, the benefits are mitigated

63 imary cell cultures from patients undergoing open heart surgery, human atrial fibroblasts, atrial car

64 s and that it may reduce the total number of open heart surgeries in these patients.

65 ythmias) frequently complicate recovery from open heart surgery in children and can be difficult to m

66 Use of CA to support vital organs during open heart surgery in infancy is associated, at the age

67 ngiogenic peptides or plasmid vectors during open heart surgery in patients.

68 Open heart surgery in the fetus has yet to be done succe

69 the GLP-1 agonist exenatide during and after open-heart surgery in reducing the risk of death and maj

70 e Heart Team was to refer the patient for an open-heart surgery, in which two thrombi were removed.

71 fection of the median sternotomy wound after open heart surgery is a devastating complication associa

72 h cold-crystalloid cardioplegia in pediatric open heart surgery is dependent on age and degree of cya

73 velopmental outcomes in children who undergo open heart surgery is hampered by the absence of a suita

74 atrial tachyarrhythmias in our young canine open heart surgery model.

75 underwent early intervention (188 [25%] had open heart surgery, most commonly coronary artery bypass

76 ontrolled trial in which patients undergoing open-heart surgery (n=220, average age 73 years) receive

77 proaches to carotid revascularization in the open heart surgery (OHS) population.

78 nal artery stenosis (ARAS) on outcomes after open-heart surgery (OHS).

79 Conventional devices require invasive open-heart surgery or less invasive endovascular surgery

80 cryobiology); myocardial preservation during open-heart surgery; organ preservation for transplantati

81 y obstruction (p = 0.091), and conversion to open heart surgery (p = 0.082).

82 rol study comparing case-patients (n=5) with open heart surgery patients without subsequent sternotom

83 In some children undergoing open heart surgery, plasma arginine vasopressin concentr

84 8 months and weighting 22+/-4 kg, underwent open heart surgery replicating a nontransannular approac

85 n both groups with no cases of conversion to open heart surgery, second valve implantation within the

86 l death: eight [0.6%] of 1320; conversion to open heart surgery: six [0.5%] of 1319) and similar to n

87 In contrast to open heart surgery, TAVR does not offer the opportunity

88 ions of the heart in a young canine model of open heart surgery to control 2 common postoperative sup

89 se in other complications compared with MPN (open heart surgery to repair cardiac laceration [6 versu

90 mapping of chronic AF in patients undergoing open heart surgery to test the hypothesis that chronic A

91 ave emerged as an alternative to traditional open-heart surgery to mitigate congenital defects.

92 isk factors for poor outcome, including age, open heart surgery, tricuspid insufficiency (TI), cardia

93 hm were studied immediately before and after open heart surgery using simultaneous LA pressure measur

94 The presence of CON regulations for open heart surgery was ascertained from the National Dir

95 e risk of procedural complications requiring open heart surgery was significantly higher in the bicus

96 ndomized fashion, 118 patients who underwent open heart surgery were assigned to right atrial pacing

97 Three hundred patients undergoing standard open heart surgery were randomized in a double-blind fas

98 ildren 34.5+/-44.1 months of age) undergoing open-heart surgery were selected to either alpha-stat (n

99 presenting with ACS may be sent directly to open heart surgery while still on anticoagulation, it is

100 he unacceptably high risk for mortality from open heart surgery with cardiopulmonary bypass in the se

101 without hypoxic stress (cyanosis) undergoing open heart surgery with cold-crystalloid cardioplegia we

102 4 infants younger than 2 years who underwent open heart surgery with CPB for congenital heart disease

103 ted certificate-of-need (CON) regulation for open heart surgery with higher hospital coronary artery

104 All participants underwent open-heart surgery with use of Sentinel CEP.

105 children (age, 5.4 +/- 2.1 years) and after open-heart surgery without allograft implantation in 11