ライフサイエンスコーパス: defibrillate

1 a predetermined shock was then delivered to defibrillate.

2 mias, which might explain why shocks fail to defibrillate.

3 ioverter-defibrillator, 34 were successfully defibrillated.

4 entricular arrhythmias, from which they were defibrillated.

5 All animals were defibrillated; 6 of 16 control animals developed refract

6 Initial shocks defibrillated 92% (83% to 97%) of patients.

7 In a second study, we attempted to defibrillate after 10 seconds of ventricular fibrillatio

8 s defined as the weakest biphasic shock that defibrillated after 10 s of ventricular fibrillation.

9 inutes, electrically refibrillated, and then defibrillated after 4 minutes of ACLS.

10 allowed to remain in VF and was subsequently defibrillated after 4 minutes of ACLS; group 3 was defib

11 out concern over the ability to successfully defibrillate and treat hypothermia-induced arrhythmias.

12 Animals were defibrillated and observed for 30 minutes.

13 Once the heart is defibrillated and successful resuscitation achieved, rev

14 30-J biphasic truncated transthoracic shocks defibrillate as well as the 200-J monophasic damped sine

15 Group 1 was defibrillated at 12 minutes and then administered advanc

16 illated after 4 minutes of ACLS; group 3 was defibrillated at 12 minutes, electrically refibrillated,

17 sign of a single minimal stimulus capable of defibrillating, at any time, turbulent states driven by

18 ads with active pectoral pulse generators to defibrillate atrial fibrillation (AF) is unknown.

19 00 m from an AED with only 14.5% (n=8) being defibrillated before the arrival of emergency medical se

20 s of unsupported VF (no CPR), the swine were defibrillated (biphasic waveform) with successive shocks

21 lectrically fibrillated (n=4) and thereafter defibrillated both outside and inside the MRI bore.

22 Strong shocks that defibrillate break the continuity of phase around PSs by

23 excitable cable to be directly activated or defibrillated by the application of a large amplitude po

24 Overweight patients were defibrillated by the biphasic waveform used in this stud

25 ening period of electrical diastole; a shock defibrillates by interacting with the fibrillation actio

26 ating electrodes with adult biphasic AEDs to defibrillate children.

27 locorticoid receptor antagonist (yes/no),and defibrillating device (implanted defibrillating device,

28 yes/no),and defibrillating device (implanted defibrillating device, yes/no).

29 539 (30%) with digoxin, and 1243 (15%) had a defibrillating device; 2640 (31%) had undergone coronary

30 which shocks succeed (SDF) or fail (FDF) to defibrillate, global cardiac activation and recovery and

31 nditional defibrillation system successfully defibrillated in the MRI without degrading the image qua

32 All group 1 and 3 animals were defibrillated into PEA/asystole at 12 minutes.

33 ACLS, group 2 and 3 animals were effectively defibrillated into sinus rhythm.

34 1), lower sensing amplitude (right ventricle defibrillating lead, P=0.020), and lower lead impedance

35 (94.4%), and 2784 (99.7%) were successfully defibrillated (</=65, </=70, </=75, and </=80 J, respect

36 Biphasic waveforms defibrillate more effectively than monophasic waveforms;

37 Some 80% tilt triphasic waveforms defibrillate more efficiently than biphasic waveforms wi

38 Unsuccessfully defibrillated rats received additional shocks (which we

39 necessary in BTE external defibrillators to defibrillate S-VF.

40 ated with induction of VF; while following a defibrillating shock, it is associated with its failure

41 uce VF and successful termination of VF by a defibrillating shock.

42 Shocks that have defibrillated spontaneous ventricular fibrillation (VF)

43 Minimizing the energy required to defibrillate the heart has several potential advantages.

44 by which extracellular field shocks (ECFSs) defibrillate the heart is by producing changes in membra

45 The first shock successfully defibrillated the heart in 13 patients (defibrillation w

46 d by vulnerability testing were successfully defibrillated twice at </=25 J.

47 erter-defibrillator (S-ICD) was developed to defibrillate ventricular arrhythmias, avoiding drawbacks

48 For each shock that defibrillated VF, CC resumption and VF recurrence times

49 persons with minimal training could promptly defibrillate victims of cardiac arrest.

50 The rectilinear biphasic waveform defibrillated with <90% of the D50 and D90 energies requ

51 pproximately 30-J shock (6 pigs successfully defibrillated with 8-millisecond ascending, 8-millisecon

52 More important, biphasic shocks defibrillated with nearly 60% less current.

53 tilinear biphasic waveform also successfully defibrillated with significantly less energy per body we