ライフサイエンスコーパス: surgical intensive care unit

1 ns for integration of palliative care in the surgical intensive care unit.

2 to better integrate palliative care into the surgical intensive care unit.

3 atisfaction, length-of-stay, and cost in the surgical intensive care unit.

4 1 trial that shows decreased mortality in a surgical intensive care unit.

5 was performed in a 16-bed pediatric medical-surgical intensive care unit.

6 e determined within 24 hrs of admission to a surgical intensive care unit.

7 ction took place in Geriatric, Emergency and Surgical intensive care units.

8 malignant neoplasms admitted to medical and surgical intensive care units.

9 tis, is the cause of 50-80% of all deaths in surgical intensive care units.

10 leading cause of morbidity and mortality in surgical intensive care units.

11 ty rates and length of stay; those who had a surgical intensive care unit admission and traveled grea

12 Referral and community patients who had a surgical intensive care unit admission had similar sever

13 hospital stays (beta = 0.27; P = 0.02), and surgical intensive care unit admissions (OR = 4.30; P =

14 A surgical intensive care unit and a medical intensive car

15 Mortality, length of stay (LOS): overall, surgical intensive care unit and PCU, readmission rates,

16 and hypercarbia predicts hospital mortality, surgical intensive care unit and total hospital length o

17 her etiologies of hypotension in medical and surgical intensive care units, appropriate treatment can

18 Medical and Surgical Intensive Care Units at Massachusetts General H

19 we provide a description of the medical and surgical intensive care units at Walter Reed, their hist

20 From the 27-month surgical intensive care unit database of admissions, 869

21 marcescens bacteremia in any patient in the surgical intensive care unit during the period of the ep

22 d on blood specimens obtained in the cardiac surgical intensive care unit for complete blood count an

23 ents were 442 adult patients admitted to the surgical intensive care unit for trauma, a critical illn

24 Adult patients admitted to the surgical intensive care unit for trauma, postoperative m

25 acted hospital length of stay and comparable surgical intensive care unit free days, they demonstrate

26 Conversion of a tertiary care surgical intensive care unit from an open to closed envi

27 42 severely injured patients admitted to the surgical intensive care unit from days 1 to 15 after inj

28 ale (AIS), >or=3] receiving ESA while in the surgical intensive care unit from January 1, 1996 to Dec

29 tients who developed decubitus ulcers in the surgical intensive care unit (ICU) of New York Weill Cor

30 ys of mechanical ventilation (MV) in medical/surgical intensive care unit (ICU) patients are unknown

31 ospective observational study in medical and surgical intensive care unit (ICU) patients with a stay

32 spiratory failure or shock in the medical or surgical intensive care unit (ICU), evaluated them for i

33 lled trial in a single-center, tertiary care surgical intensive care unit (ICU).

34 m for patients with infections admitted to a surgical intensive care unit (ICU).

35 d from patients hospitalized in the medical, surgical, intensive care unit (ICU) and dermatology serv

36 atients who were admitted to the medical and surgical intensive care units (ICUs) at the University o

37 was performed in a 17-bed medical and 56-bed surgical intensive care unit in a 1,900-bed referral hos

38 dults (>/=18 years old) admitted to a 20-bed surgical intensive care unit in a large tertiary care ac

39 The study was carried out at a surgical intensive care unit in a large tertiary care ho

40 large academic health centers and a medical-surgical intensive care unit in a medium-sized community

41 cal ventilation in the medical, coronary, or surgical intensive care units in a university-based tert

42 Aggressive, goal-directed management in the surgical intensive care unit is beneficial for the geria

43 Each case's controls were chosen to have surgical intensive care unit length of stay more than or

44 significant difference in either overall or surgical intensive care unit length of stay.

45 with S. marcescens bacteremia stayed in the surgical intensive care unit longer than controls (13.5

46 ving continuously infused medications in our surgical intensive care unit occurred at a rate of 105.9

47 more likely to have received fentanyl in the surgical intensive care unit (odds ratio, 31; P<0.001),

48 ough March 21, 1999, several patients in the surgical intensive care unit of a hospital acquired Serr

49 II data were collected prospectively at the surgical intensive care unit of the University of Vermon

50 Surgical intensive care units of a trauma center and flo

51 ensive care unit length of stay, whereas the surgical intensive care unit optimal mobility score and

52 We tested the hypotheses that the surgical intensive care unit optimal mobility score inde

53 sting impairment of functional mobility, the surgical intensive care unit optimal mobility score is a

54 patients' mobilization capacity by using the surgical intensive care unit optimal mobility score the

55 The surgical intensive care unit optimal mobility score was

56 Multivariate analysis revealed that the surgical intensive care unit optimal mobility score was

57 Surgical intensive care unit optimal mobility score, hyp

58 o, 2.96 [1.51, 5.77]) but not the medical or surgical intensive care units or in patients with diabet

59 (P<.001), and an 87.5% reduction within the surgical intensive care unit (P<.001).

60 was effective in preventing IC in high-risk surgical intensive care unit patients with intra-abdomin

61 diagnostic tests may improve the outcome of surgical intensive care unit patients with invasive fung

62 The records of 171 surgical intensive care unit patients with sinus tachyca

63 n shown to reduce morbidity and mortality in surgical intensive care unit patients.

64 A cohort of medical and surgical intensive care unit patients.

65 Surgical intensive care unit, PCU, and total hospital pa

66 In our surgical intensive care unit population, the estimation

67 tions increased threefold in the medical and surgical intensive care units, reaching rates in FY 1993

68 have been described, their applicability in surgical intensive care unit settings has not been fully

69 the concept that, when possible, patients in surgical intensive care units should be managed by board

70 rol in patients admitted to coronary care or surgical intensive care units showed a reduction in mort

71 estigate the causes of potentially avoidable surgical intensive care unit (SICU) admissions and dispo

72 atients to the telemetry unit instead of the surgical intensive care unit (SICU) after esophagectomy.

73 a "mandatory consultation" to a "semiclosed" surgical intensive care unit (SICU) model will impact nu

74 of patients with suspected infections in the surgical intensive care unit (SICU) until objective evid

75 after initiation of CRRT among patients in a surgical intensive care unit (SICU).

76 re and surgical practice often occurs in the surgical intensive care unit (SICU).

77 predicts adverse outcomes in patients in the surgical intensive care unit (SICU).

78 o for prevention of fungal infections in the surgical intensive care unit (SICU).

79 apy to strictly control blood glucose in non-surgical intensive care unit (SICU)/medical intensive ca

80 stant gram-negative bacilli (CAZ-RGN) in two surgical intensive care units (SICU) during a nonoutbrea

81 delirium previously demonstrated in numerous surgical intensive care unit studies was not observed, w

82 rhexidine "scrub-the-hub" and daily baths in surgical intensive care units, suggesting effectiveness

83 ilot, randomized trial of 21 general medical/surgical intensive care unit survivors (8 controls and 1

84 ATIENTS: A prospective cohort of medical and surgical intensive care unit survivors with respiratory

85 mily satisfaction with communication for all surgical intensive care unit team members, with physicia

86 full-time family support coordinator to the surgical intensive care unit team on family satisfaction

87 eir family members by various members of the surgical intensive care unit team.

88 role, the family support coordinator, to the surgical intensive care unit team.

89 critical care service spent less time in the surgical intensive care unit, used fewer resources, had

90 The prevalence of obesity in the surgical intensive care unit was 26.7%; extreme obesity

91 S. marcescens and E. cloacae bacteremia in a surgical intensive care unit was traced to extrinsic con

92 All continuous infusions in the surgical intensive care unit were evaluated at least onc

93 improvement protocol, adults admitted to the surgical intensive care unit were screened for hearing l

94 disciplinary model of palliative care in the surgical intensive care unit, which addresses communicat

95 in the blood of individuals admitted to the surgical intensive care unit with hemorrhagic shock.