ライフサイエンスコーパス: initial resuscitation

1 rfusion and multiple organ dysfunction after initial resuscitation.

2 ood cell-heavy strategy (1:1:2) during their initial resuscitation.

3 tal single-rescuer bystander CPR, successful initial resuscitation, 24-hour survival, and neurologica

4 the type of fluid that patients received for initial resuscitation and by the type of admission.

5 rise of early goal-directed therapy for the initial resuscitation and management of severe sepsis an

6 d external defibrillations, would not impair initial resuscitation and outcomes of cardiopulmonary re

7 and alpha1-adrenergic blockade would improve initial resuscitation and postresuscitation myocardial a

8 onary resuscitation with the hypothesis that initial resuscitation and postresuscitation survival wou

9 tal cardiac arrest who remain comatose after initial resuscitation are at high risk of morbidity and

10 atients by an ED-based intensivist following initial resuscitation by the ED team.

11 ersus lactated Ringer's solution (LR) as the initial resuscitation fluid.

12 After initial resuscitation from cardiac arrest, adrenergic ag

13 In four animals, after initial resuscitation from hemorrhagic shock, the abilit

14 After initial resuscitation, global hemodynamic parameters wer

15 et volume loading can be reduced markedly by initial resuscitation of large body surface area burn in

16 arterial pressure is challenging during the initial resuscitation of patients with septic shock.

17 rterial pressure of at least 65 mm Hg during initial resuscitation of patients with septic shock.

18 tor concentrates were not superior to FP for initial resuscitation of patients with trauma.

19 her in survivors than in nonsurvivors in the initial resuscitation period and at the hemodynamic nadi

20 ent that attention is being refocused on the initial resuscitation period as a time when significant

21 fluid should be avoided and that, after the initial resuscitation phase, efforts should be made to k

22 1) A single bolus of HBOC-201 at initial resuscitation rapidly restored cerebral perfusio

23 -hr infusion of lisofylline was added to the initial resuscitation regimen, the 72-hr survival rate i

24 This review focuses on initial resuscitation, respiratory support, care of the

25 After the initial resuscitation, simultaneous measurements of oxyg

26 rdiac arrest (OHCA) is often poor, even when initial resuscitation succeeds.

27 was able to improve myocardial function and initial resuscitation success after experimental cardiac

28 50% reduction of cardiac output (T1), after initial resuscitation to baseline (T2), and after optimi

29 gh-dose piglets died in the ICU period after initial resuscitation vs. 0 of ten standard-dose piglets

30 Initial resuscitation was with a bolus injection of 8 mL

31 ts with severe TBI not in hypovolemic shock, initial resuscitation with either hypertonic saline or h