ライフサイエンスコーパス: postoperative infection

1 fective than placebo in reducing the risk of postoperative infection.

2 surgery and 42 patients (31.3%) because of a postoperative infection.

3 There were no cases of any postoperative infection.

4 CVH has an increased risk of postoperative infection.

5 thalmic surgical patients, were reviewed for postoperative infection.

6 ted with a lower probability of developing a postoperative infection.

7 rginine administration significantly reduces postoperative infection.

8 rean delivery may further reduce the rate of postoperative infection.

9 d in third molar extraction sites to prevent postoperative infection.

10 Of the 108 patients, 41 developed a postoperative infection.

11 rioperative suture colonization may minimize postoperative infections.

12 d to determine the specific impact of severe postoperative infections.

13 nfectious complications, particularly severe postoperative infections.

14 cid did not result in a greater incidence of postoperative infections.

15 Two patients (2.7%) had postoperative infections.

16 e scores of S-INF and S-INF-Core) to predict postoperative infections.

17 There were 3996 documented postoperative infections.

18 of preoperative skin antisepsis may decrease postoperative infections.

19 defining a patient subgroup at high risk for postoperative infections.

20 sociated with an increased susceptibility to postoperative infections.

21 .90; 95% CI, 1.37-2.63; P < .001), develop a postoperative infection (1.67; 1.48-1.89; P < .001), and

22 sed eosinophils (2.4), cancer history (2.1), postoperative infection (2.0), hypertension (2.0), CABG

23 etastasis-death 1.66 (1.41-1.97, P < 0.001), postoperative infection 3.27 (2.05-5.20, P < 0.001), and

24 irements, but was positively associated with postoperative infection (3.81 +/- 0.97 vs 2.79 +/- 0.73;

25 es in complications, including the number of postoperative infections (9% in the nail group vs 13% in

26 operative glucose control has been linked to postoperative infections after selected surgical procedu

27 acement and removal can increase the risk of postoperative infection and bacteremia.

28 for bacterial species of direct relevance to postoperative infection and bacteremia.

29 There is a significant rate of postoperative infection and dehiscence in patients with

30 complications, including lower incidences of postoperative infections and bleeding complications, as

31 disposing patients to a greater incidence of postoperative infections and rejection and a longer hosp

32 Postoperative infections are a frequent source of preven

33 peritoneal dialysis (PD) on the incidence of postoperative infection as well as several other posttra

34 These patients may be at risk for serious postoperative infections as antitumor necrosis factor ag

35 lume eye facility, the incidence of presumed postoperative infection associated with unwrapped and wr

36 requirement of transfusions or incidence of postoperative infection between the groups.

37 od transfusions on outcome variables such as postoperative infection, cancer recurrence, pulmonary fu

38 rect costs, cost variability was highest for postoperative infection (CV = 1.71) and sepsis (CV = 1.3

39 amethasone was associated with reductions in postoperative infection, duration of postoperative mecha

40 Primary study endpoint was the occurrence of postoperative infection during the first 30 days.

41 e index), donor ischemic time, occurrence of postoperative infections, episodes of allograft rejectio

42 revious research demonstrating a low rate of postoperative infection following periodontal surgical p

43 oor nutritional state increases the risk for postoperative infections for spinal fusion patients.

44 ip between perioperative glucose control and postoperative infections in a nationwide sample of diabe

45 lerated, but did not reduce the incidence of postoperative infections in this high-risk oncologic pop

46 Multivariate Poisson regression model of postoperative infection including demographics, comorbid

47 Postoperative infection (P = 0.006), renal failure requi

48 Intensive glucose control leads to less postoperative infections (POI) in critically ill surgica

49 sociation of perioperative hyperglycemia and postoperative infections (POI) in patients who had under

50 The overall postoperative infection rate was 8.0%.

51 immunosuppression that results in increased postoperative infection rate, and can also result in inc

52 cess-of-care measure predicted a decrease in postoperative infection rates from 11.5 to 5.3 per 1000

53 cess-of-care measure predicted a decrease in postoperative infection rates from 14.2 to 6.8 per 1000

54 eat analysis of 414 patients showed that the postoperative infection rates were 17% (35 of 207) in th

55 iate prophylactic antibiotic regimens reduce postoperative infection rates, improved instrumentation

56 Postoperative infections remain a significant problem am

57 association between suture colonization and postoperative infections remains hypothetical, measures

58 A critically ill patient with multiple postoperative infections repeatedly required profound vo

59 We investigated the postoperative infection risk for patients undergoing ele

60 Readmission diagnoses varied by specialty; postoperative infection was the most common readmission

61 Higher rates of postoperative infection were associated with mean 24 hou

62 nd 1.93 (95% CI, 1.38-2.68), and the odds of postoperative infections were 0.88 (95% CI, 0.69-1.12) a

63 Tuberculous and postoperative infections were excluded.

64 he unwrapped sterilization group 17 presumed postoperative infections were identified, compared to 9

65 Postoperative infections were more likely to occur at TH

66 Postoperative infections were recorded according to the

67 Heart failure and postoperative infections were the most frequent reasons

68 We investigated whether postoperative infection with meticillin-resistant Staphy

69 ved areas might be especially susceptible to postoperative infection with MRSA.

70 nes with the intent to minimize the rates of postoperative infection with small-gauge vitrectomy surg

71 preoperative antibiotics reduces the risk of postoperative infection, yet few studies have described