ライフサイエンスコーパス: sudden cardiac arrest

1 substantial portion of patients experiencing sudden cardiac arrest.

2 ion is a lifesaving technique for victims of sudden cardiac arrest.

3 icular fibrillation (IVF) is a rare cause of sudden cardiac arrest.

4 nce the objectives of improving outcomes for sudden cardiac arrest.

5 e (LQTS) may result in syncope, seizures, or sudden cardiac arrest.

6 ons and secondary prevention in survivors of sudden cardiac arrest.

7 vel cause of J-wave syndrome associated with sudden cardiac arrest.

8 nt low survival rate of youth who experience sudden cardiac arrest.

9 with increased propensity for arrhythmia and sudden cardiac arrest.

10 s to protect youth and improve survival from sudden cardiac arrest.

11 th prolonged QT intervals, tachycardias, and sudden cardiac arrest.

12 ated with mild therapeutic hypothermia after sudden cardiac arrest.

13 lood cell membranes has been associated with sudden cardiac arrest.

14 een associated with increased survival after sudden cardiac arrest.

15 45 patients, 79%) or secondary prevention of sudden cardiac arrest.

16 lar fibrillation as the presenting rhythm in sudden cardiac arrest.

17 cantly decreased as the presenting rhythm in sudden cardiac arrest.

18 tion remains as the leading causal rhythm of sudden cardiac arrest.

19 arrest in 1 (3 died), representing 24.5% of sudden cardiac arrests.

20 significant arrhythmias were defined as: 1) sudden cardiac arrest; 2) nonsustained and sustained ven

21 s (15.6%) experienced the primary outcome (9 sudden cardiac arrest, 40 appropriate implantable cardio

22 defibrillator for the primary prevention of sudden cardiac arrest after baseline clinical evaluation

23 treated with thrombolysis, or had suffered a sudden cardiac arrest and could be treated with cardiopu

24 ic marker, for example, for prostate cancer, sudden cardiac arrest and neurodegenerative disorders.

25 Sudden cardiac arrest and sudden cardiac death (SCD) are

26 pitalization for angina, resuscitation after sudden cardiac arrest, and coronary revascularization.

27 rrences of sustained ventricular arrhythmia, sudden cardiac arrest, appropriate defibrillator shock,

28 During 4.1 years of follow-up, there were 33 sudden cardiac arrests (arrhythmic death or implantable

29 piratory symptoms that quickly progressed to sudden cardiac arrest as a consequence of late-onset dia

30 tle is known about the relative frequency of sudden cardiac arrest at traditional indoor exercise fac

31 ion, a cohort greatly contributing to global sudden cardiac arrest burden, this marker provides robus

32 Sudden cardiac arrest (CA) is one of the leading causes

33 Only one fifth of the sudden cardiac arrest cases in the community were eligib

34 th a continuing decline in the prevalence of sudden cardiac arrest cases presenting with ventricular

35 Probability of survival from sudden cardiac arrest caused by ventricular fibrillation

36 red benign until 2008, when it was linked to sudden cardiac arrest due to idiopathic ventricular fibr

37 The occurrence of sudden cardiac arrest due to structural heart disease wa

38 The incidence of sudden cardiac arrest during competitive sports was 0.76

39 of-hospital cardiac arrest, the incidence of sudden cardiac arrest during participation in competitiv

40 The incidence of sudden cardiac arrest during participation in sports act

41 ation screening programs aimed at preventing sudden cardiac arrest during sports activities are thoug

42 stole was an important cause of mortality in sudden cardiac arrest events.

43 occurred alongside increasing survival from sudden cardiac arrest from shockable rhythms to 52%.

44 60 deaths (35.6%) were considered to be from sudden cardiac arrest from tachyarrhythmia.

45 Cases were adjudicated as sudden cardiac arrest (i.e., having a cardiac cause) or

46 s) are extensively deployed to rapidly treat sudden cardiac arrest in adults, their applicability for

47 We studied a prospective series of cases of sudden cardiac arrest in casinos.

48 Our purpose was to review recent data on sudden cardiac arrest in children and its outcome to ide

49 verter defibrillators (ICDs) used to prevent sudden cardiac arrest in children not only provide appro

50 Ventricular arrhythmia-related sudden cardiac arrest in infants with structurally norma

51 PA2 cause a mitochondrial disease leading to sudden cardiac arrest in infants.

52 CMR identified a likely pathogenesis for sudden cardiac arrest in nearly half of survivors in who

53 coding genes seem to be an uncommon cause of sudden cardiac arrest in patients with apparent J-wave s

54 We examined every public indoor sudden cardiac arrest in Seattle and King County from 19

55 to defibrillation and improved survival from sudden cardiac arrest in several communities.

56 the cardiovascular disorders known to cause sudden cardiac arrest in the athlete.

57 Ds) among subjects who eventually experience sudden cardiac arrest in the general population have not

58 he relative frequency, care, and survival of sudden cardiac arrest in traditional indoor exercise fac

59 Sudden cardiac arrest is a leading cause of death in chi

60 In the majority of patients, sudden cardiac arrest is caused by myocardial infarction

61 Survival after sudden cardiac arrest is limited by postarrest myocardia

62 Survival following sudden cardiac arrest is poor despite advances in cardio

63 The most common location of out-of-hospital sudden cardiac arrest is the home, a situation in which

64 nt of disease was confirmed at autopsy after sudden cardiac arrest, is presented.

65 cases (2003-2012), 448 had appropriate pre- sudden cardiac arrest left ventricular ejection fraction

66 e in arrhythmias, despite the fact that most sudden cardiac arrest occur in the setting of ischemia.

67 Although the majority of sudden cardiac arrests occur in patients with ischemic h

68 Sudden cardiac arrest occurred in 1 individual during fo

69 18.5 million person-years of observation, 74 sudden cardiac arrests occurred during participation in

70 brillator to receive one of two responses to sudden cardiac arrest occurring at home: either the cont

71 of fibrosis was an independent predictor of sudden cardiac arrest or appropriate implantable cardiac

72 is is the strongest independent predictor of sudden cardiac arrest or appropriate implantable cardiac

73 ere followed up for the primary end point of sudden cardiac arrest or appropriate implantable cardiac

74 nce were followed for the primary outcome of sudden cardiac arrest or appropriate implantable cardiov

75 Frequent media reports of sudden cardiac arrest or death (SCA/SCD) keep alive a de

76 Determining the pathogenesis of sudden cardiac arrest or periarrest without significant

77 den" OR the terms "sudden cardiac death" OR "sudden cardiac arrest" OR "cardiac arrest" OR "cardiac d

78 ntricular assist device, resuscitation after sudden cardiac arrest, or appropriate lifesaving shock),

79 ulation in approximately 50% of normovolemic sudden cardiac arrests outside hospitals and in essentia

80 t to evaluate the role of CMR in determining sudden cardiac arrest pathogenesis and prognosis in surv

81 While survival rates following sudden cardiac arrest remain relatively low, recent adva

82 urrent data describing the true incidence of sudden cardiac arrest (SCA) and/or sudden cardiac death

83 eople with epilepsy are at increased risk of sudden cardiac arrest (SCA) due to ECG-confirmed ventric

84 ctiveness of emergency response planning for sudden cardiac arrest (SCA) in a large cohort of US high

85 High-resolution stratification of risk of sudden cardiac arrest (SCA) in individual patients is a

86 Prevention of sudden cardiac arrest (SCA) in the young remains a large

87 Among patients with epilepsy, sudden cardiac arrest (SCA) is a major cause of death.

88 Sudden cardiac arrest (SCA) is a major contributor to mo

89 Sudden cardiac arrest (SCA) ranks among the most common

90 In contrast, prehospital mortality from sudden cardiac arrest (SCA) remains high and difficult t

91 Survival after sudden cardiac arrest (SCA) remains low, and tools for i

92 could affect coronary heart disease (CHD) or sudden cardiac arrest (SCA) via generation of specific f

93 ion of repolarization and the mechanisms for sudden cardiac arrest (SCA).

94 that might potentially benefit survivors of sudden cardiac arrest (SCA).

95 could identify patients at highest risk for sudden cardiac arrest (SCA).

96 or patients perceived to be at high risk for sudden cardiac arrest (SCA).

97 d brain and may influence resuscitation from sudden cardiac arrest (SCA).

98 sex-related differences in risk factors for sudden cardiac arrest (SCA).

99 Sports-associated sudden cardiac arrests (SCAs) occur mostly during middle

100 ons of automatic external defibrillators and sudden cardiac arrests (SCAs).

101 All 3 infants survived sudden cardiac arrest secondary to multiple episodes of

102 Three cases of sudden cardiac arrest that occurred during participation

103 We sought to identify all sudden cardiac arrests that occurred during participatio

104 (SCD) was highlighted during the most recent Sudden Cardiac Arrest Thought Leadership Alliance's (SCA

105 s improve the survival of youth experiencing sudden cardiac arrest to 74% when optimal programs are i

106 Over half of young sudden cardiac arrest victims show no prior warning sign

107 Sudden cardiac arrest was correlated with a greater volu

108 imately 1 million), cases of out-of-hospital sudden cardiac arrest who underwent attempted resuscitat

109 Cases of adult sudden cardiac arrest with echocardiographic evaluation

110 In cases of out-of-hospital sudden cardiac arrest, women have significantly better r