Zobrazeno 1 - 4
of 4
pro vyhledávání: '"James M. Nania"'
Autor:
Michael Mancera, Brian Schaeffer, Julie Charbonneau, Thomas D. Rea, Jennifer Blackwood, Bryan Collins, James M. Nania, Mohamud Daya, Christopher Carbon, Scott Bavery, Dawn Jorgenson, Jeff Helm, Dana N. Alteneder, Tim Loncon, Brent VanKeulen, Richard Price, Mengqi Gao, Jeremy Robertson, Michael Charter, Mike Lopez
Publikováno v:
Resuscitation. 154:1-6
Background Survival following out-of-hospital cardiac arrest (OHCA) decreases as the interval from collapse to CPR and defibrillation increases. Innovative approaches are needed to reduce response intervals, especially for private locations. Methods
Abstract 295: Improving Response to Out-Of-Hospital Cardiac Arrest: Verified Responder Pilot Program
Autor:
Richard J. Price, Michael Mancera, Mohamud Daya, Thomas D. Rea, Jennifer Blackwood, Dawn Jorgenson, Brian Schaeffer, Jeff Helm, Mengqi Gao, Brent VanKeulen, Christopher Carbon, Scott Bavery, Jeffrey Luther, Julie Charbonneau, Bryan Collins, James M. Nania, Jeremy Robertson
Publikováno v:
Circulation. 140
Background: Survival following out-of-hospital cardiac arrest (OHCA) decreases as the interval from collapse to CPR and defibrillation increases. Most OHCA events occur in private locations. Innovative approaches are needed to reduce response interva
Autor:
Bryan Collins, James M. Nania, Tim Day, Dawn Jorgenson, Bryan Howard, Thomas D. Rea, Cody Rohrbach, Jennifer Blackwood, Mickey S. Eisenberg, Peter Connell
Publikováno v:
Prehospital Emergency Care. 22:784-787
Most cardiac arrests occur in the private setting where response is often delayed and outcomes are poor. We surveyed public safety personnel to determine if they would volunteer to respond into private locations and/or be equipped with a personal aut
Autor:
Gregory C Cover, Geneva N Whitmore, James M Nania, Lynn J. White, Michael Levy, Joel D Edminster, Alexander Esibov, Robert G. Walker
Publikováno v:
Prehospital Emergency Care. 22:300-311
Physiologic alterations during rapid sequence intubation (RSI) have been studied in several emergency airway management settings, but few data exist to describe physiologic alterations during prehospital RSI performed by ground-based paramedics. To a