ライフサイエンスコーパス: cardiopulmonary arrest

1 tervention group (46 patients experienced 65 cardiopulmonary arrests).

2 o restore oxygenation and reduce the risk of cardiopulmonary arrest.

3 mary outcome was survival to discharge after cardiopulmonary arrest.

4 or with mild deficits following in-hospital cardiopulmonary arrest.

5 limitation of resuscitative measures only on cardiopulmonary arrest.

6 unique global ischemia/reperfusion insult of cardiopulmonary arrest.

7 tance of a respiratory etiology of pediatric cardiopulmonary arrest.

8 arge in hospitalized patients suffering from cardiopulmonary arrest.

9 in improving survival of patients suffering cardiopulmonary arrest.

10 to be declared dead before the occurrence of cardiopulmonary arrest.

11 ning for parents of infants at high risk for cardiopulmonary arrest.

12 to 2 groups based on the occurrence of donor cardiopulmonary arrest.

13 f the liver damage is induced by brief donor cardiopulmonary arrest.

14 se 32 patients had a total of 38 episodes of cardiopulmonary arrest.

15 roup A consisted of 37 donors who suffered a cardiopulmonary arrest.

16 l to patients with DNR orders who experience cardiopulmonary arrest.

17 5 (1.8%) pediatric admissions, experienced a cardiopulmonary arrest.

18 oral performance during subsequent simulated cardiopulmonary arrests.

19 lonic activity (22.7% vs 4.2%; P < .001) and cardiopulmonary arrest (9.7% vs 0.5%, P < .001) vs patie

20 ic therapy during pulmonary embolism-induced cardiopulmonary arrest and discuss the role of thromboly

21 ere is no reported correlation between donor cardiopulmonary arrest and hepatic allograft dysfunction

22 g intestinal grafts from donors who suffered cardiopulmonary arrest and resuscitation and to evaluate

23 n the venglustat group owing to an unrelated cardiopulmonary arrest and there were no deaths in the p

24 Cardiopulmonary arrest and trauma are two of the major e

25 inpatients experiencing an index episode of cardiopulmonary arrest and undergoing cardiopulmonary re

26 atients were all children who presented with cardiopulmonary arrest and who were administered CPR in

27 d intubation increases the risk of hypoxemic cardiopulmonary arrest and/or pulmonary aspiration, resu

28 Cardiopulmonary arrests and in-hospital mortality were a

29 The primary outcomes were cardiopulmonary arrests and mortality.

30 xtended rapid response team on hospital-wide cardiopulmonary arrests and mortality.

31 apid response team was effective in reducing cardiopulmonary arrests and total hospital mortality for

32 tween April and July 2009, all patients with cardiopulmonary arrests and unplanned intensive care uni

33 control group (123 patients experienced 183 cardiopulmonary arrests) and between July 1, 2010, and J

34 heir chances for a meaningful recovery after cardiopulmonary arrest are low.

35 ge resulting from circulatory failure during cardiopulmonary arrest before organ procurement in group

36 Thirty-five (17.1%) patients had a cardiopulmonary arrest before pediatric ICU admission an

37 ealth care teams participated in 2 simulated cardiopulmonary arrests, before and after debriefing.

38 Inpatients who experienced cardiopulmonary arrest between January 1, 2006, and Dece

39 s a guide for therapeutic decisions during a cardiopulmonary arrest but also as a surrogate for broad

40 erapies designed to enhance perfusion during cardiopulmonary arrest by emphasizing chest compressions

41 cted hyponatremic encephalopathy and died of cardiopulmonary arrest caused by brainstem herniation.

42 After controlling for patient and cardiopulmonary arrest characteristics, hypotension in t

43 e been shown in adult inpatients to decrease cardiopulmonary arrest (code) rates outside of the inten

44 ther survival to discharge after in-hospital cardiopulmonary arrest could be improved by a program en

45 nd neurological outcomes following pediatric cardiopulmonary arrest (CPA).

46 were observed in rapid response activation, cardiopulmonary arrest, death in hospital, ICU readmissi

47 rapid response team implementation, non-ICU cardiopulmonary arrests decreased from 1.4 to 0.9 per 1,

48 ion, transfer to the intensive care unit, or cardiopulmonary arrest during hospitalization.

49 lticenter study of children with in-hospital cardiopulmonary arrest, ETCO(2) >=20 mm Hg was associate

50 er, n = 11), including advance warning of 27 cardiopulmonary arrest events (26%) for which return of

51 f monitored patients, without an increase in cardiopulmonary arrest events.

52 tients were followed for the occurrence of a cardiopulmonary arrest (external cardiac massage for at

53 ement in outcomes from in-hospital pediatric cardiopulmonary arrest following the introduction of a p

54 ing lifesaving resuscitation in a patient in cardiopulmonary arrest greatly outweighs the risk for se

55 eived chest compressions of any duration for cardiopulmonary arrest, had an endotracheal or tracheost

56 ining, survival to discharge after pediatric cardiopulmonary arrest improved, as did code team perfor

57 and treatment of cardiovascular collapse or cardiopulmonary arrest in an adult or pediatric patient

58 Experiences of brief cardiopulmonary arrest in organ donors did not affect po

59 r-success" situations, including a witnessed cardiopulmonary arrest in which the initial cardiac rhyt

60 cation outcomes, total telemetry census, and cardiopulmonary arrests in comparison with the previous

61 show significant reductions in mortality or cardiopulmonary arrests in pediatric inpatients.

62 grafts from donors who have suffered a brief cardiopulmonary arrest may sustain ischemic damage befor

63 An episode of aspiration resulted in cardiopulmonary arrest, necessitating cardiopulmonary re

64 er, patients successfully resuscitated after cardiopulmonary arrest often have a favorable prognosis.

65 Patients who were in a state of continuous cardiopulmonary arrest on admission, or who never achiev

66 ve was to study the influence of brief donor cardiopulmonary arrest on hepatic allograft outcome in h

67 citation for people who suffer an unexpected cardiopulmonary arrest or for whom resuscitation may hav

68 RT) has been shown to decrease mortality and cardiopulmonary arrests outside of the intensive care un

69 withdrawal of life-sustaining therapies and cardiopulmonary arrest, patients are cannulated onto ext

70 The dog died of cardiopulmonary arrest prior to pacemaker implantation.

71 de mortality rates and code (respiratory and cardiopulmonary arrests) rates outside of the ICU settin

72 ith witnessed, nontraumatic, out-of-hospital cardiopulmonary arrests regardless of initial electrocar

73 oratory and clinical investigations of adult cardiopulmonary arrest, resuscitation guidelines recomme

74 Compared with sepsis survivors without cardiopulmonary arrest, sepsis survivors who received ca

75 Secondary outcomes were cardiopulmonary arrest, sepsis, unanticipated intensive

76 he notion that a majority of out-of-hospital cardiopulmonary arrest survivors die after a decision to

77 The composite endpoint of cardiopulmonary arrest, unplanned ICU admission, or deat

78 with a decrease in the composite endpoint of cardiopulmonary arrests, unplanned ICU admissions, and m

79 ith those of patients who did not experience cardiopulmonary arrest using propensity score matching w

80 believe that care changes beyond response to cardiopulmonary arrest, varying from increased attention

81 The number of cardiopulmonary arrests was 126 in the 13 months preinte

82 ent in clinical performance during simulated cardiopulmonary arrests was not significantly different

83 Patients who survived cardiopulmonary arrest were prospectively collected from

84 atose survivors of witnessed out-of-hospital cardiopulmonary arrests who were admitted to an ICU duri