ライフサイエンスコーパス: external defibrillator

1 atched to start CPR or retrieve an automated external defibrillator.

2 ere assessed by bystanders with an automated external defibrillator.

3 onary resuscitation, and use of an automated external defibrillator.

4 onary resuscitation or applying an automated external defibrillator.

5 ould retrieve and successfully use automated external defibrillators.

6 and make use of publicly available automated external defibrillators.

7 began equipping its aircraft with automated external defibrillators.

8 cers were instructed in the use of automated external defibrillators.

9 guide more optimal programming of automated external defibrillators.

10 focus on the role of school-based automated external defibrillators.

11 on were additionally equipped with automated external defibrillators.

12 treated by first responders using automated external defibrillators.

13 ease of use, and relative cost of automated external defibrillators.

14 (59.6% versus 83.2%), or apply an automated external defibrillator (29.8% versus 60.0%); and EMS sta

15 The use of the automated external defibrillator aboard commercial aircraft is eff

16 ime of OHCA occurrence may improve automated external defibrillator accessibility.

17 ion according to the waveform from automated external defibrillators administered by prehospital medi

18 The automated external defibrillator (AED) has improved survival after

19 Immediate access to an automated external defibrillator (AED) increases the chance of sur

20 6, 2005, to July 15, 2010, and all automated external defibrillator (AED) locations registered with T

21 Consequently, home use of an automated external defibrillator (AED) might offer an opportunity

22 ersist, but the development of the automated external defibrillator (AED) promises to realize the goa

23 citation (CPR), or (iii) bystander automated external defibrillator (AED) use and provided informatio

24 the effectiveness of contemporary automatic external defibrillator (AED) use.

25 hildren in VF, but impractical for automated external defibrillator (AED) use.

26 The automated external defibrillator (AED) was developed as the result

27 uscitation (CPR) and the use of an automated external defibrillator (AED), for out-of-hospital arrest

28 including rhythms shockable by an automatic external defibrillator (AED), implantable cardioverter-d

29 cardiac arrest patients treated by automated external defibrillator (AED)-equipped Tucson Fire Depart

30 Automated external defibrillators (AED) have been recommended for

31 rdiopulmonary resuscitation [CPR], automated external defibrillator [AED] attached, and defibrillatio

32 Although automatic external defibrillators (AEDs) are extensively deployed

33 Automated external defibrillators (AEDs) are often placed in areas

34 ut-of-hospital cardiac arrest, but automated external defibrillators (AEDs) are rarely available for

35 The dissemination and use of automated external defibrillators (AEDs) beyond traditional emerge

36 Use of automated external defibrillators (AEDs) by first arriving emergen

37 ter defibrillation, such as use of automated external defibrillators (AEDs) by nonconventional respon

38 schools are increasingly adopting automated external defibrillators (AEDs) for use in campus setting

39 Use of automated external defibrillators (AEDs) has become an important c

40 lthough increased dissemination of automated external defibrillators (AEDs) has been associated with

41 urvival, and outside the hospital, automated external defibrillators (AEDs) have shown promise in imp

42 Drone-delivered automated external defibrillators (AEDs) hold promises in the trea

43 Automated external defibrillators (AEDs) improve survival from out

44 Use of automatic external defibrillators (AEDs) in children aged <8 years

45 Despite wide dissemination, use of automated external defibrillators (AEDs) in community settings is

46 The success of bystander-deployed automated external defibrillators (AEDs) in public settings sugges

47 Installation of automated external defibrillators (AEDs) in schools has been assoc

48 Current versions of automated external defibrillators (AEDs) mandate interruptions of

49 Wider availability of automated external defibrillators (AEDs) may decrease response tim

50 Installation of automated external defibrillators (AEDs) on passenger aircraft has

51 Automated external defibrillators (AEDs) play a key role in the co

52 Public access automated external defibrillators (AEDs) represent emergency medic

53 Current versions of automated external defibrillators (AEDs) require frequent stopping

54 In recent years, a wider use of automated external defibrillators (AEDs) to treat out-of-hospital

55 pulmonary resuscitation imposed by automated external defibrillators (AEDs) with poor resuscitation o

56 al population in CPR and in use of automated external defibrillators (AEDs), training first responder

57 to determine optimal placement of automatic external defibrillators (AEDs).

58 ssed and the ready availability of automated external defibrillators (AEDs).

59 ted the effect on bystander use of automated external defibrillators (AEDs).

60 te the widespread dissemination of automated external defibrillators (AEDs).

61 of treatment variation imposed by automated external defibrillators (AEDs).

62 mpt defibrillation with the use of automated external defibrillators (AEDs).

63 data, including time-synchronized automated external defibrillator and manual defibrillator data, we

64 Automated external defibrillators and AED accessory advisories occ

65 For bystanders with access to automated external defibrillators and EMS personnel who arrive dur

66 disparity between the locations of automatic external defibrillators and sudden cardiac arrests (SCAs

67 be incorporated into conventional automated external defibrillators and to work in conjunction with

68 of volunteer responders to collect automated external defibrillators and/or to provide cardiopulmonar

69 lmonary resuscitation and applying automated external defibrillator) and ALS ambulances (medicalized

70 unity responder systems, access to automated external defibrillators, and innovations to match resusc

71 diopulmonary resuscitation, use of automated external defibrillators, and other performance improveme

72 g basic and advanced medical kits, automated external defibrillators, and telemedical ground support

73 rhythms that were shockable by an automated external defibrillator; and 954 (4.6% of total) were dis

74 Automated external defibrillators appear to be cost-effective in l

75 opulmonary resuscitation and early automated external defibrillator application by non-EMS personnel.

76 call, dispatch-to-scene interval, automated external defibrillator application, bystander cardiopulm

77 Future automated external defibrillators are being designed to direct res

78 mainly in animals and humans using E-VF, yet external defibrillators are often used in patients to ha

79 Although the benefits of automatic external defibrillators are undeniable, their effectiven

80 if small, lightweight, inexpensive automatic external defibrillators are widely disseminated.

81 omplications arose from use of the automated external defibrillator as a monitor in conscious passeng

82 Placement of automated external defibrillators at locations such as casinos, ai

83 ial citizen rescuers and providing automated external defibrillators at the scene hold the promise of

84 rgency medical services; keywords: automatic external defibrillator, automated external defibrillator

85 onary resuscitation or applying an automated external defibrillator before EMS arrival did not meanin

86 Up to 70-80% of US schools have automated external defibrillators, but not all have effective emer

87 medical services, immediate use of automated external defibrillators by laypersons can dramatically i

88 The use of automated external defibrillators by persons other than paramedics

89 n by nonmedical personnel using an automated external defibrillator can improve survival after out-of

90 gorithms from two manufacturers of automated external defibrillators can accurately distinguish shock

91 ion Council basic life support and automatic external defibrillator course.

92 actors, increasing availability of automated external defibrillators, data collection processes, epid

93 tation; types of defibrillators or automated external defibrillators; defibrillator paddle or pad siz

94 h police and firefighters deployed automated external defibrillators delivering nonescalating 150-J b

95 rotocols, and exploration of novel automated external defibrillator delivery vectors.

96 Automated external defibrillators deployed in readily accessible,

97 oritize potential partnerships for automated external defibrillator deployment in public-access defib

98 Identifying specific locations for automated external defibrillator deployment incorporating operatin

99 ons for the development of "smart" automated external defibrillators designed to determine duration o

100 f successful and safe use with two automated external defibrillator devices among two groups of volun

101 Two external defibrillators, each connected to its own pair

102 esuscitation, use of public access automated external defibrillator, epinephrine administration, and

103 cardiopulmonary resuscitation and automated external defibrillator explained 41% of the survival var

104 ischarge in OHCA patients where an automated external defibrillator had been used by nonemergency med

105 The efficacy of external defibrillators has been tested mainly in animal

106 Automated external defibrillators have been used successfully by t

107 s yet been no secure evidence that automated external defibrillators have had a favorable impact on i

108 While highly targeted provision of automated external defibrillators in areas of greatest risk, such

109 Placement of automated external defibrillators in public facilities is a cost-e

110 Placement of automated external defibrillators in public places was recommended

111 evice; 3) additional deployment of automated external defibrillators in schools and public places; an

112 Accordingly, placement of automated external defibrillators in the community as part of a pu

113 With the dissemination of automated external defibrillators in the community, there is incre

114 cords, ECD dataport interrogation, automated external defibrillator information, ECG strips, depositi

115 grams, involving the deployment of automated external defibrillators into the public space, has been

116 shockable rhythm is present and an automated external defibrillator is immediately applied.

117 Early defibrillation by an automated external defibrillator is the most important interventio

118 An MRI-conditional external defibrillator may improve patient acceptance fo

119 s early access defibrillation with automated external defibrillators may be of benefit in out-of-hosp

120 ted external defibrillator usage: "Automated external defibrillators may be used for children 1 to 8

121 08 defibrillation attempts with an automated external defibrillator, of 46 victims of cardiac arrest

122 Automated external defibrillators performed similarly to biphasic

123 ential waveform shocks (ForeRunner Automated External Defibrillator, Phillips/Heartstream Operation,

124 ta from many sources indicate that automated external defibrillator placement at sites with an expect

125 Efforts to guide automated external defibrillator placement for out-of-hospital car

126 ta have important implications for automated external defibrillator placement.

127 ospital time, defibrillation using automatic external defibrillators, prehospital advanced airway typ

128 ernative techniques, public access automated external defibrillator programs, analysis of rhythm duri

129 automatic external defibrillator, automated external defibrillator, public access defibrillation).

130 f-hospital cardiac arrest, we used automatic external defibrillator recordings of cardiopulmonary res

131 We included 199 automatic external defibrillator recordings.

132 An external defibrillator reported a shockable rhythm in 1

133 cular fibrillation or shockable by automated external defibrillator rhythm, and 27.6% received bystan

134 Automated external defibrillators save lives when they are used by

135 roviders and/or received bystander automatic external defibrillator shock or who were pulseless but r

136 Because automatic external defibrillator size and cost are directly affect

137 cardiopulmonary resuscitation and automated external defibrillator skills training in schools and bu

138 In the current operation of automated external defibrillators, substantial time may be consume

139 opulation in CPR and in the use of automated external defibrillators, teaching first responders about

140 or deployment and housing, evolved automated external defibrillator technology and functionality, imp

141 rolled external defibrillators, to automatic external defibrillators that can now be obtained over-th

142 xperiences of doing CPR, use of an automated external defibrillator, the impact of dispatcher-assiste

143 ctrically induced VF may be necessary in BTE external defibrillators to defibrillate S-VF.

144 tor may be incorporated in current automated external defibrillators to monitor and prompt the effect

145 irectly to the heart, to manually controlled external defibrillators, to automatic external defibrill

146 person use, along with less formal automated external defibrillator training and retraining.

147 uch as course content (63% perform automated external defibrillator training), instructor (47% used C

148 ose; basic life support, including automated external defibrillator training; measuring implementatio

149 ion's new guidelines for pediatric automated external defibrillator usage: "Automated external defibr

150 sponders about team-based CPR (eg, automated external defibrillator use and high-performance CPR), an

151 cardiopulmonary resuscitation and automated external defibrillator use in the two sites.

152 pulmonary resuscitation and public automated external defibrillator use increased significantly (34.9

153 cardiopulmonary resuscitation and automated external defibrillator use modestly increased during the

154 cardiopulmonary resuscitation and automated external defibrillator use were positively correlated wi

155 der cardiopulmonary resuscitation, automated external defibrillator use, and county-level sociodemogr

156 lysis adjusted for initial rhythm, automatic external defibrillator use, and mean age.

157 io may be increasingly relevant to automated external defibrillator use.

158 zed 20-minute protocols on CPR and automated external defibrillator use: instructor-led face-to-face

159 were recovered from data cards in automated external defibrillators used by police (n = 49) or firef

160 services systems were treated with automated external defibrillators using either a VF waveform analy

161 the hospital after shock with the automated external defibrillator was 40 percent.

162 The automated external defibrillator was also used as a monitor for ot

163 A commercial external defibrillator was rendered 1.5 Tesla MRI-condit

164 al data and ECG recordings from an automated external defibrillator were obtained for 75 subjects wit

165 Automated external defibrillators were used for 200 patients (191

166 Automated external defibrillators were used, 105 patients whose in

167 mmediate application and use of an automated external defibrillator with a pediatric attenuator if av