ライフサイエンスコーパス: mediastinitis

1 mediastinitis, and 1 with lung infection and mediastinitis).

2 bacteremia strongly suggests the presence of mediastinitis.

3 culture results in identifying patients with mediastinitis.

4 bilateral pleural effusions and hemorrhagic mediastinitis.

5 ed morbidity and mortality for patients with mediastinitis.

6 primary CT findings nor a final diagnosis of mediastinitis.

7 after day 14, they are highly indicative of mediastinitis.

8 t with a diagnosis of IgG4-related fibrosing mediastinitis.

9 ed lymph node calcification (74%), fibrosing mediastinitis (1%), and pericardial tuberculosis (2%).

10 followed by surgical wound infections (29%), mediastinitis (16%), sternal osteomyelitis (6%), and per

11 ubstantially increased risk of postoperative mediastinitis (3.6% versus 1.2%, respectively; adjusted

12 n occurred in 11 636 patients (3.51%) (25.1% mediastinitis, 32.6% saphenous harvest site, 35.0% septi

13 flaps (compared with free tissue transfer), mediastinitis, advanced age, and pulmonary failure.

14 nt risk factor for in-hospital mortality and mediastinitis after CABG.

15 ediastinitis, those with primary CT signs of mediastinitis and a different final diagnosis, and those

16 Both patients had evidence of mediastinitis and extensive pulmonary infiltrates late i

17 No differences were seen in mediastinitis and mortality, however, limited number of

18 re determined on the basis of development of mediastinitis and retention of barium in the mediastinum

19 Mediastinitis and sternal infections were not observed a

20 r probable IA (5 with lung infection, 1 with mediastinitis, and 1 with lung infection and mediastinit

21 occur with complications such as pneumonia, mediastinitis, and bronchial dehiscence and was not an i

22 oke, acute kidney injury, surgical revision, mediastinitis, and operative mortality.

23 lications include the use of pedicled flaps, mediastinitis, and pulmonary failure.

24 ortality will depend on earlier detection of mediastinitis, before onset of septicemia, and ongoing i

25 4, CT had a sensitivity of 100% for clinical mediastinitis but a specificity of 33%; after postoperat

26 Fibrosing Mediastinitis (FM) is a rare complication of infection w

27 e) who underwent CT for clinically suspected mediastinitis following median sternotomy were retrospec

28 All patients with clinical mediastinitis had primary CT findings.

29 present the first documented case of CA-MRSA mediastinitis in an adult.

30 was more common in females; endocarditis and mediastinitis in men.

31 There was a 4.4% incidence of mediastinitis in the bilateral ITA group versus 2.2% in

32 odstream infections, cannula infections, and mediastinitis infections occurred in 55%, 18%, 10% and 1

33 Mediastinitis is a complication of coronary artery bypas

34 Mediastinitis is common and tends to occur in younger ch

35 90 days of CABG was strongly associated with mediastinitis (likelihood ratio [LR], 25; 95% CI, 14.7 t

36 tive blood cultures were less likely to have mediastinitis (LR, 0.45; 95% CI, 0.35 to 0.58).

37 rganisms did not alter pretest suspicion for mediastinitis (LR, 1.0; 95% CI, 0.6 to 1.7).

38 spitalizations were longer for patients with mediastinitis (median, 130 days [range, 58-200 days] vs

39 Mediastinitis occurred in 46 of 60 (76.7%) patients with

40 Patients with mediastinitis or elevated coccidioidal complement fixati

41 turn to the operating room for bleeding, and mediastinitis or sternal dehiscence requiring surgery we

42 y, other processes such as tumors, fibrosing mediastinitis, or vasculitis.

43 rs] vs 7 years [range, 0.6-17 years] for non-mediastinitis patients; P = .10).

44 days] vs 43 days [range, 3-273 days for non-mediastinitis patients]; P < .01) and those with maximum

45 fistula due to lymph-node rupture, and acute mediastinitis), pericardium (pneumopericardium in patien

46 ted as a measure for preventing postsurgical mediastinitis (PSM) due to Staphylococcus aureus, this s

47 association between S aureus bacteremia and mediastinitis remained highly significant when all uniqu

48 o estimate patient risk for major infection (mediastinitis, thoracotomy or vein harvest site infectio

49 th primary CT signs and a final diagnosis of mediastinitis, those with primary CT signs of mediastini

50 Primary CT findings are not specific for mediastinitis through postoperative day 14; after day 14

51 d/or deep sternal wound infection (including mediastinitis) through postoperative day 90.

52 l clinical diagnosis of something other than mediastinitis underwent CT an average of 9 days followin

53 Mediastinitis was identified by prospective active infec

54 sanguinous pleural effusions and hemorrhagic mediastinitis were found in 5 patients who died.

55 of 7-448 days (mean, 226 days), no cases of mediastinitis were found.

56 te the immediate hospital care, he developed mediastinitis, were in need of a laparascopy and intensi

57 Mediastinitis, with radiographic evidence of purulence a

58 care-associated infection such as pneumonia, mediastinitis, wound infection, and sepsis.