ライフサイエンスコーパス: fluid overload

1 roughout admission and PICU day 2 cumulative fluid overload %.

2 s independently associated with higher day 2 fluid overload %.

3 sk for postoperative acute kidney injury and fluid overload.

4 g, such as a low skeletal muscle mass and/or fluid overload.

5 mechanical ventilation and the avoidance of fluid overload.

6 t risk of developing acute kidney injury and fluid overload.

7 for management of acute kidney injury and/or fluid overload.

8 ] >/= 1600 pg/mL), and signs and symptoms of fluid overload.

9 hanical ventilation is often associated with fluid overload.

10 n 90 mm Hg and IV fluids held for concern of fluid overload.

11 ensive care unit and increased perioperative fluid overload.

12 ing diuresis in critically ill children with fluid overload.

13 ctice, which may contribute to perioperative fluid overloading.

14 e observations may help preventing pulmonary fluid overloading.

15 splantation patients with various amounts of fluid overload, a modest correlation was found between s

16 We described fluid overload after cardiac surgery, identified risk fa

17 Fluid overload after congenital heart surgery is frequen

18 nd determined their association with percent fluid overload and acute organ dysfunction and generated

19 ac surgery, identified risk factors of worse fluid overload and also determined if fluid overload pre

20 Concerns regarding potential for fluid overload and electrolyte disturbances and regardin

21 ients with acute decompensated HF to improve fluid overload and hemodynamics.

22 Intravascular fluid overload and lower inspiratory capacity were signi

23 osis, highlight the importance of cumulative fluid overload and provide key management strategies for

24 estimating equations (daily PICU cumulative fluid overload % and oxygenation index repeated measures

25 mined rates of renal replacement therapy and fluid overload, and measured biomarkers of kidney damage

26 One patient died of fluid overload, and one died of deep venous thrombosis o

27 ficulty, hyperglycemia, acute kidney injury, fluid overload, and prolonged intubation contribute sign

28 ubjects ranged from 2-46 months of age, were fluid overloaded, and were receiving a continuous infusi

29 Strategies to prevent and/or treat fluid overload are likely to improve outcomes.

30 levels were directly associated with percent fluid overload at baseline (rs = 0.18; p = 0.0008) and a

31 Median fluid overload at continuous renal replacement therapy d

32 The degree of fluid overload at continuous renal replacement therapy d

33 age, and severity of illness, the change in fluid overload at continuous renal replacement therapy d

34 In pediatric patients, fluid overload at continuous renal replacement therapy i

35 Median fluid overload at continuous renal replacement therapy i

36 erent periods, age, severity of illness, and fluid overload at continuous renal replacement therapy i

37 al replacement therapy initiation found that fluid overload at continuous renal replacement therapy i

38 Our data demonstrate an association between fluid overload at continuous renal replacement therapy i

39 After adjusting for percent fluid overload at continuous renal replacement therapy i

40 was to characterize the association between fluid overload at continuous renal replacement therapy i

41 tality, but appears to reflect the effect of fluid overload at initiation.

42 Es are caused by four conditions: pneumonia, fluid overload, atelectasis, and acute respiratory distr

43 Future fluid overload avoidance trials may confirm or refute a

44 disease (ESRD), a condition characterized by fluid overload, both obstructive and central sleep apnea

45 These findings indicate that fluid overload contributes to the pathogenesis of OSA an

46 ing subset of heart failure patients exhibit fluid overload despite significant doses of loop diureti

47 Secondary end points included incidence of fluid overload, duration of mechanical ventilation and i

48 y, primarily in patients without evidence of fluid overload (edema).

49 Sustained fluid overload (FO) is considered a major cause of hyper

50 at survival was associated with less percent fluid overload (%FO) in the intensive care unit (ICU) be

51 hock, multiple organ dysfunction, and severe fluid overload for more than 400 h with the CARPEDIEM, u

52 medical ICU patients with pulmonary edema or fluid overload for which aggressive diuresis was intende

53 Acute kidney injury and fluid overload frequently necessitate initiation of cont

54 for management of acute kidney injury and/or fluid overload from January 2000 through July 2009 were

55 n attempting fluid removal after significant fluid overload has developed.

56 ietin-2 levels are associated with increased fluid overload, hepatic and coagulation dysfunction, acu

57 talization at Texas Children's Hospital were fluid overload/hypertension (FO/HTN) and vascular access

58 Little is known about fluid overload in children undergoing cardiac surgery.

59 rmine whether earlier use of CVVH to control fluid overload in critically ill children can improve su

60 was to evaluate its use in the treatment of fluid overload in these patients.

61 ithout causing hypokalemia for patients with fluid overload, including patients with congestive heart

62 Cumulative fluid overload independently predicts poor outcomes.

63 Fluid overload, indication for continuous renal replacem

64 Fluid overload is associated with poor PICU outcomes in

65 This observation suggests that fluid overload is involved in the pathogenesis of OSA an

66 In CKD, fluid overload is the most important factor leading to m

67 ning prior to the development of significant fluid overload may be more clinically effective than att

68 In patients with fluid overload not exceeding 25% of ECW, ECW correlated

69 Fluid overload occurred in 8.3% of protocolized care and

70 Fluid overload occurring as a consequence of overly aggr

71 Fluid overload occurs early after cardiac surgery and is

72 de group was 3 times more likely to have 10% fluid overload (odds ratio [OR], 3.0; 95% CI, 1.3-6.9),

73 CC vs seven [8%] patients receiving plasma), fluid overload or similar cardiac events (three [3%] pat

74 voidance trials may confirm or refute a true fluid overload-outcome causative association.

75 Fluid overload-outcome relations were evaluated using st

76 Fluid overload peaked on PICU day 2.

77 Fluid overload portends poor outcomes in critically ill

78 Day 2 fluid overload % predicted longer length of stay (adjust

79 without cyanotic heart disease, worse daily fluid overload % predicted worse daily oxygenation index

80 worse fluid overload and also determined if fluid overload predicts longer length of PICU stay, prol

81 The patient's 65% fluid overload, raised creatinine and bilirubin concentr

82 trointestinal sodium absorption, (2) improve fluid overload-related symptoms, such as hypertension an

83 Fluid overload, renal dysfunction, low cardiac output an

84 Fluid overload risk factors were evaluated using stepwis

85 operative day 1, as well as avoidance of 10% fluid overload; shorter duration of mechanical ventilati

86 x 100] and expressed as PICU peak cumulative fluid overload % throughout admission and PICU day 2 cum

87 Furthermore, correction of fluid overload to </= 10% was not associated with improv

88 Peak cumulative fluid overload % was 7.4% +/- 11.2%.

89 Cumulative fluid overload % was calculated as [(total fluid in - ou

90 cause of their perceived risk for iatrogenic fluid overload, we also evaluated patients with a histor

91 ations other than acute kidney injury and/or fluid overload were excluded.