ライフサイエンスコーパス: resuscitative

1 orrhagic shock with the addition of moderate resuscitative (28 degrees to 32 degrees C) hypothermia l

2 ry and repair and account for the effects of resuscitative and rehabilitative care are needed.

3 erstanding clinical course and to anticipate resuscitative and therapeutic needs.

4 mbat casualties, which require a totally new resuscitative approach; the limits and potentials of rea

5 Unfortunately, the outcome of prolonged resuscitative attempts cannot be predicted.

6 rences in the quality of simulated pediatric resuscitative care across a spectrum of EDs.

7 Importance: The quality of pediatric resuscitative care delivered across the spectrum of emer

8 ctive: To measure and compare the quality of resuscitative care delivered to simulated pediatric pati

9 esentation, location at second dose, initial resuscitative care, and antimicrobial activity mechanism

10 lated to ischemia, necrosis, reperfusion, or resuscitative dilution.

11 in in patients aged >/=18 years who received resuscitative efforts by emergency medical services (EMS

12 e of provider ambiguity in prioritization of resuscitative efforts during an arrest.

13 irected order may state 'The patient desires resuscitative efforts during surgery and in the postoper

14 in Denmark to facilitate bystander-mediated resuscitative efforts, including bystander defibrillatio

15 tionwide initiatives to facilitate bystander resuscitative efforts, including bystander defibrillatio

16 ion, started as soon as possible after acute resuscitative efforts, may serve therapeutic roles beyon

17 r about prognosis and preferences for future resuscitative efforts.

18 rapy was administered during cardiopulmonary resuscitative efforts.

19 Resuscitative endovascular balloon occlusion of the aort

20 Resuscitative Endovascular Balloon Occlusion of the Aort

21 ctice of providing options to parents during resuscitative events.

22 observed, and prehospital and hospital-based resuscitative factors deserves further exploration.

23 All rats received 50 mL/kg 0.9% saline resuscitative fluid at 2 hrs.

24 rolled clinical trials evaluating its use as resuscitative fluid in brain-injured patients with hemor

25 adhesion may vary, depending on the type of resuscitative fluid used.

26 ic venous hypertension and administration of resuscitative fluids induces intestinal edema, mimicking

27 All artificial resuscitative fluids may not be similar or innocuous, as

28 iming and technique of infusing advantageous resuscitative fluids such as hypertonic saline and hemog

29 Resuscitative hypothermia after cardiac arrest, traumati

30 rmic cardiac arrest of 11 mins in dogs, mild resuscitative hypothermia from 15 mins to 12 hours after

31 mal duration of, and rewarming methods from, resuscitative hypothermia need clarification.

32 Resuscitative hypothermia was explored in the 1950s and

33 ts from undergoing unwanted or inappropriate resuscitative interventions, and DNR orders are frequent

34 and the role of open-heart vs. closed-chest resuscitative measures are discussed.

35 eve that a DNR order indicates limitation of resuscitative measures only on cardiopulmonary arrest.

36 s decreased mortality; therefore, aggressive resuscitative measures seem merited in these patients.

37 e setting of moderate or severe hypothermia, resuscitative measures were facilitated with significant

38 ble patients, the management should focus on resuscitative measures, diagnostic testing, potential re

39 Often our resuscitative measures, while necessary, cause a wide ra

40 Resuscitative mild hypothermia, however, may be benefici

41 Resuscitative (postinsult) hypothermia is less well stud

42 auma for emergency surgeries or life-saving (resuscitative) situations and in everyday elective surge

43 Diaspirin crosslinked hemoglobin is a resuscitative solution with excellent oxygen-carrying ca

44 rity of global tissue hypoxia resulting from resuscitative strategies on these early biomarker patter

45 With further understanding of new resuscitative strategies, the need for damage control su

46 rrest no-flow, to buy time for transport and resuscitative surgery (hemostasis) performed during no-f

47 ere brain trauma, by enabling evacuation and resuscitative surgery during circulatory arrest, followe

48 m, flying ambulance surgical trauma, forward resuscitative surgery system teams) has been amply demon

49 creases the time available for transport and resuscitative surgery, followed by delayed resuscitation

50 etween survivors and nonsurvivors undergoing resuscitative thoracotomy (RT).