Brian Grunau1, Joshua C Reynolds2, Frank X Scheuermeyer3, Robert Stenstrom4, Sarah Pennington5, Chris Cheung6, Jennifer Li7, Mona Habibi6, Krishnan Ramanathan8, David Barbic3, Jim Christenson3. 1. UBC Department of Emergency Medicine, Vancouver, B.C., Canada; St Paul's Hospital, Vancouver, B.C., Canada; Centre for Health Evaluation and Outcome Sciences, Vancouver, B.C., Canada; UBC School of Population and Public Health, Vancouver, B.C., Canada. Electronic address: Brian.Grunau2@vch.ca. 2. Department of Emergency Medicine, Michigan State University College of Human Medicine, Grand Rapids, MI, United States. 3. UBC Department of Emergency Medicine, Vancouver, B.C., Canada; St Paul's Hospital, Vancouver, B.C., Canada. 4. UBC Department of Emergency Medicine, Vancouver, B.C., Canada; St Paul's Hospital, Vancouver, B.C., Canada; Centre for Health Evaluation and Outcome Sciences, Vancouver, B.C., Canada; UBC School of Population and Public Health, Vancouver, B.C., Canada. 5. Providence Healthcare Research Institute, Vancouver, B.C., Canada. 6. UBC Department of Medicine, Vancouver, B.C., Canada. 7. UBC Division of General Surgery, Vancouver, B.C., Canada. 8. UBC Division of Cardiology, Vancouver, B.C., Canada.
Abstract
AIM: There is little data to inform the appropriate duration of resuscitation attempts for out-of-hospital cardiac arrest (OHCA). We assessed the relationship of elapsed duration since commencement of resuscitation and outcomes, highlighting differences between initial shockable and non-shockable rhythms. METHODS: We examined consecutive adult non-traumatic EMS-treated OHCA in a single health region. We plotted the time-dependent accrual of patients with ROSC, as well as dynamic estimates of outcomes as a function of duration from commencement of professional resuscitation, and compared subgroups dichotomized by initial rhythm. Logistic regression tested the association between time-to-ROSC and outcomes. RESULTS: Of 1627 adult EMS-treated cases of OHCA, 1617 patients were included; 14% survivors and 10% with favorable neurological outcomes. Time-to-ROSC (per minute increase) was independently associated with survival in those with initial shockable (aOR 0.95, 95% CI 0.92-0.97) and non-shockable (aOR 0.83; 95% CI 0.78-0.88) rhythms. Similar associations were seen with favorable neurologic outcome. The elapsed duration at which the probability of survival fell below 1% was 48 and 15 min in the shockable and non-shockable groups, respectively. Median time-to-termination of resuscitation was 36 and 26 min in the shockable and non-shockable groups, respectively. CONCLUSION: The subgroup of initial shockable rhythms showed a less pronounced association of time-to-ROSC with outcomes, and demonstrated higher resilience for neurologically intact survival after prolonged periods of resuscitation. This data can guide minimum durations of resuscitation, however should not be considered as evidence for termination of resuscitation as survival in this cohort may have been improved with longer resuscitation attempts.
AIM: There is little data to inform the appropriate duration of resuscitation attempts for out-of-hospital cardiac arrest (OHCA). We assessed the relationship of elapsed duration since commencement of resuscitation and outcomes, highlighting differences between initial shockable and non-shockable rhythms. METHODS: We examined consecutive adult non-traumatic EMS-treated OHCA in a single health region. We plotted the time-dependent accrual of patients with ROSC, as well as dynamic estimates of outcomes as a function of duration from commencement of professional resuscitation, and compared subgroups dichotomized by initial rhythm. Logistic regression tested the association between time-to-ROSC and outcomes. RESULTS: Of 1627 adult EMS-treated cases of OHCA, 1617 patients were included; 14% survivors and 10% with favorable neurological outcomes. Time-to-ROSC (per minute increase) was independently associated with survival in those with initial shockable (aOR 0.95, 95% CI 0.92-0.97) and non-shockable (aOR 0.83; 95% CI 0.78-0.88) rhythms. Similar associations were seen with favorable neurologic outcome. The elapsed duration at which the probability of survival fell below 1% was 48 and 15 min in the shockable and non-shockable groups, respectively. Median time-to-termination of resuscitation was 36 and 26 min in the shockable and non-shockable groups, respectively. CONCLUSION: The subgroup of initial shockable rhythms showed a less pronounced association of time-to-ROSC with outcomes, and demonstrated higher resilience for neurologically intact survival after prolonged periods of resuscitation. This data can guide minimum durations of resuscitation, however should not be considered as evidence for termination of resuscitation as survival in this cohort may have been improved with longer resuscitation attempts.
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