Prehospital surface cooling is safe and can reduce time to target temperature after cardiac arrest

Abstract Purpose Mild therapeutic hypothermia proved to be beneficial when induced after cardiac arrest in humans. Prehospital cooling with i.v. fluids was associated with adverse side effects. Our primary objective was to compare time to target temperature of out-of hospital cardiac arrest patients...

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Bibliographic Details
Published in:Resuscitation 2015-02, Vol.87, p.51-56
Main Authors: Uray, Thomas, Mayr, Florian B, Stratil, Peter, Aschauer, Stefan, Testori, Christoph, Sterz, Fritz, Haugk, Moritz
Format: Article
Language:English
Subjects:
Administration, Intravenous
Aged
Ambulances
Body Temperature
Cardiopulmonary resuscitation (CPR)
Cardiopulmonary Resuscitation - methods
Cohort Studies
Comparative Effectiveness Research
Emergency
Emergency medical services
Emergency Medical Services - methods
Emergency Medical Services - statistics & numerical data
Female
Fluid Therapy - adverse effects
Fluid Therapy - methods
Hospitalization - statistics & numerical data
Humans
Hypothermia, induced
Hypothermia, Induced - adverse effects
Hypothermia, Induced - instrumentation
Hypothermia, Induced - methods
Male
Middle Aged
Out-of-hospital cardiac arrest
Out-of-Hospital Cardiac Arrest - physiopathology
Out-of-Hospital Cardiac Arrest - therapy
Outcome Assessment (Health Care)
Retrospective Studies
United States
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Summary:Abstract Purpose Mild therapeutic hypothermia proved to be beneficial when induced after cardiac arrest in humans. Prehospital cooling with i.v. fluids was associated with adverse side effects. Our primary objective was to compare time to target temperature of out-of hospital cardiac arrest patients cooled non-invasively either in the prehospital setting vs. the in-hospital (IH) setting, to assess surface-cooling safety profile and long term outcome. Methods In this retrospective, single center cohort study, a group of adult patients with restoration of spontaneous circulation (ROSC) after out-of hospital cardiac arrest were cooled with a surface cooling pad beginning either in the prehospital or IH setting for 24 h. Time to target temperature (33.9 °C), temperature on admission, time to admission after ROSC and outcome were compared. Also, rearrests and pulmonary edema were assessed. Neurologic outcome at 12 months was evaluated (Cerebral Performance Category, CPC 1–2, favorable outcome). Results Between September 2005 and February 2010, 56 prehospital cooled patients and 54 IH-cooled patients were treated. Target temperature was reached in 85 (66–117) min (prehospital) and in 135 (102–192) min (IH) after ROSC ( p < 0.001). After prehospital cooling, hospital admission temperature was 35.2 (34.2–35.8) °C, and in the IH-cooling patients initial temperature was 35.8 (35.2–36.3) °C ( p = 0.001). No difference in numbers of rearrests and pulmonary edema between groups was observed. In both groups, no skin lesions were observed. Favorable outcome was reached in 26.8% (prehospital) and in 37.0% (IH) of the patients ( p = 0.17). Conclusions Using a non-invasive prehospital surface cooling method after cardiac arrest, target temperature can be reached faster without any major complications than starting cooling IH. The effect of early non-invasive cooling on long-term outcome remains to be determined in larger studies.
ISSN:0300-9572
1873-1570
DOI:10.1016/j.resuscitation.2014.10.026