ライフサイエンスコーパス: dispatcher

1 havior and factors beyond the control of the dispatcher.

2 did not find any significant improvement in dispatchers' ability to recognize cardiac arrest when su

3 cheduling with the tugboat operator and port dispatcher acting as decision makers at the upper and lo

4 gencies with Black/Hispanic catchment areas, dispatchers and police first responders were less likely

5 he identification of cardiac arrest by 9-1-1 dispatchers and prevented or delayed the provision of di

6 describing the latest enhancement to the Job Dispatcher APIs as well as the governance under it.

7 Dispatchers are able to accurately diagnose cardiac arre

8 ispatcher instruction (bystander CPR without dispatcher assistance).

9 adult patients with cardiac arrest requiring dispatcher assistance.

10 5% CI, 1.42, 2.01) for bystander CPR without dispatcher assistance.

11 PR, and 30.2% received bystander CPR without dispatcher assistance.

12 , the frequency of serious injury related to dispatcher-assisted bystander CPR among nonarrest patien

13 5% confidence interval [CI], 1.21, 1.73) for dispatcher-assisted bystander CPR and 1.69 (95% CI, 1.42

14 Dispatcher-assisted bystander CPR seems to increase surv

15 MS arrival requiring dispatcher instruction (dispatcher-assisted bystander CPR), and bystander CPR be

16 ander CPR before EMS arrival, 25.7% received dispatcher-assisted bystander CPR, and 30.2% received by

17 Dispatcher-assisted cardiopulmonary resuscitation (CPR)

18 the 2019 systematic review of the effects of dispatcher-assisted cardiopulmonary resuscitation (DA-CP

19 Dispatcher-assisted cardiopulmonary resuscitation (DA-CP

20 tnessed or bystander-witnessed OHCA received dispatcher-assisted cardiopulmonary resuscitation and 71

21 by EMS termed "program" factors (programs of dispatcher-assisted cardiopulmonary resuscitation and ba

22 idence for and recommendations on the use of dispatcher-assisted cardiopulmonary resuscitation and ca

23 sses, epidemiology trends, increasing use of dispatcher-assisted cardiopulmonary resuscitation, emerg

24 esses the role of cardiac arrest centers and dispatcher-assisted cardiopulmonary resuscitation, the r

25 The median time to first dispatcher-assisted CPR chest compression was 176 second

26 Delays in the delivery of dispatcher-assisted CPR chest compressions are common an

27 rs and prevented or delayed the provision of dispatcher-assisted CPR chest compressions.

28 We determined the frequency of dispatcher-assisted CPR for patients not in arrest and t

29 Chest compressions following dispatcher-assisted CPR instructions occurred in 62% of

30 omated external defibrillator, the impact of dispatcher-assisted CPR, and the potential for postevent

31 on (CPR), we initiated a randomized trial of dispatcher-assisted CPR, with the intervention arm recei

32 hese results support an assertive program of dispatcher-assisted CPR.

33 d to emergency medical dispatch centers, and dispatcher-assisted guidance of bystander resuscitation

34 At all sites, systems were activated by dispatchers at the emergency medical communication cente

35 common and are attributable to a mixture of dispatcher behavior and factors beyond the control of th

36 We found that the dispatcher correctly identified cardiac arrest in 80% of

37 comparing the short-term survival effects of dispatcher CPR instruction consisting either of chest co

38 g support for long-term mortality benefit of dispatcher CPR instruction strategy consisting of chest

39 Of the 1700 patients for whom dispatcher CPR instructions were initiated, 55% (938 of

40 vival in out-of-hospital cardiac arrest, and dispatcher-delivered instruction in CPR can increase the

41 is known about the survival effectiveness of dispatcher-delivered telephone CPR instruction.

42 Emergency medical dispatchers fail to identify approximately 25% of cases

43 United States, we identified differences in dispatcher, first responder, and EMS practices for OHCA

44 Since 2009 the EMBL-EBI Job Dispatcher framework has provided free access to a range

45 In a randomized manner, telephone dispatchers gave bystanders at the scene of apparent car

46 Telephone dispatcher-guided BLS cardiopulmonary resuscitation (CPR

47 structions occurred in 62% of cases when the dispatcher had the opportunity to asses for consciousnes

48 Dispatchers in the intervention group recognized 296 con

49 Dispatchers in the intervention group used secure, 1-way

50 Dispatchers in the intervention group were alerted when

51 s paper overviews recent improvements to Job Dispatcher, including its brand new website and document

52 with out-of-hospital cardiac arrest for whom dispatchers initiated CPR instruction to bystanders.

53 stander CPR before EMS arrival not requiring dispatcher instruction (bystander CPR without dispatcher

54 , bystander CPR before EMS arrival requiring dispatcher instruction (dispatcher-assisted bystander CP

55 We hypothesized that dispatcher instruction consisting of chest compression a

56 Dispatcher instruction consisting of chest compression a

57 ained laypeople, and the general public with dispatcher instruction to prevent cardiac arrest.

58 conducted a multicenter, randomized trial of dispatcher instructions to bystanders for performing CPR

59 We hypothesized that the dispatcher instructions to bystanders to provide chest c

60 ection; a stroke identification algorithm at dispatcher level; and a prehospital stroke team.

61 the decisions of tugboat operators and port dispatchers on tugboat scheduling under the scenario of

62 ion plus mouth-to-mouth ventilation given by dispatchers over the telephone can require 2.4 minutes.

63 s recognition by the lay public or emergency dispatchers, prompt emergency response, and effective ve

64 onary resuscitation (DA-CPR), in which 9-1-1 dispatchers provide CPR instructions over the telephone,

65 dult patients not in cardiac arrest for whom dispatchers provided CPR instructions in King County, Wa

66 takeholders (EMS director, medical director, dispatchers, quality improvement director, and paramedic

67 ndomized to video streaming and 10 621 by 10 dispatchers randomized to telephone-only communication.

68 ars; 54.4% female), 8124 were received by 10 dispatchers randomized to video streaming and 10 621 by

69 and activation include the critical role of dispatcher recognition and dispatch-assisted chest compr

70 The primary end point was the rate of dispatcher recognition of subsequently confirmed OHCA.

71 The EMBL-EBI Job Dispatcher sequence analysis tools framework enables the

72 e taught to bystanders and emergency medical dispatchers so as not to dissuade them from initiating p

73 The STEMO was deployed when the dispatchers suspected an acute stroke during emergency c

74 e assessed the time from notification of the dispatchers to defibrillation, survival rate at 72 hours

75 ross nearly 5 billion entries, while the Job Dispatcher tools framework enables the scientific commun

76 volunteer responder system was activated by dispatchers were included.

77 Matched pairs of dispatchers were randomized to manage calls using either

78 Calls were routed to the next available dispatcher who had been idle the longest.

79 had a significantly higher sensitivity than dispatchers without alerts for confirmed OHCA (85.0% vs