Approximately 2,000 people die per day in the U.S. from traumatic exsanguination (bleeding out) resulting from shootings, vehicular accidents, or other serious traumatic injuries, and from other causes of cardiac arrest despite receiving CPR. These numbers are alarming and cardiopulmonary resuscitation appears to be ineffective in most cases.
To reduce this tragic loss of life, EPR-Technologies is pursuing development of an unprecedented standard of emergency care when CPR fails; namely, Emergency Preservation and Resuscitation. This innovative technology is geared towards providing hope for survival. The goal is to reduce the number of people who lose their lives during emergencies arising from school shootings, sudden cardiac arrest, and vehicular accidents.
Speaking on the launch of EPR-Technologies, the Chairman and CEO, Lyn Yaffe, M.D., had this to say, “Rapid profound hypothermia has the potential to revolutionize resuscitation, providing one more chance to save a life when CPR fails, buying time for critical surgical and medical interventions, followed by delayed resuscitation and anticipated recovery. EPR hopes to set a new standard for emergency medical care. As always stated by Dr. Peter Safar, M.D., (1924-2003), the father of CPR and pioneer in rapid profound hypothermia, the goal is ‘to save hearts and brains too good to die.’ EPR-Technologies is dedicated to that goal.”
Originally, EPR researchers used the term “suspended animation” to describe the impact of rapid profound hypothermia in their early experiments, a term very familiar in science fiction literature and movies. And like the current, preferable term “Emergency Preservation and Resuscitation,” suspended animation may be defined as treatment to preserve the viability of the entire organism during ischemia or lack of oxygen, such as during cardiac arrest. The goal of both the early experiments in suspended animation, and now also true for EPR, was to induce rapid profound hypothermia.
In scientific terms, EPR was designed to induce rapid profound hypothermia, a state in which no oxygen delivery is required for 3+ hours, buying life-saving time for transport to a hospital followed by immediate surgical repairs and medical interventions, followed by restoration of the blood volume and delayed resuscitation, using cardiopulmonary bypass (CPB). EPR is the next revolutionary resuscitation step in saving the lives of loved ones too precious to be lost.
“Get cold enough, and you do OK with no blood for a while,” explained Samuel Tisherman, M.D., Professor of Shock Trauma Surgery, Maryland Shock Trauma, and Lead Trauma Surgeon for EPR. “We think we can buy time. We think it’s better than anything else we have at the moment and could have a significant impact on saving a bunch of patients. It’s called Emergency Preservation and Resuscitation (EPR). It’ll be a game-changer.”
EPR-Technologies has launched a crowdfunding campaign and investment opportunity for the public, for companies, and for organizations looking to make rapid profound hypothermia readily available at all trauma centers, hospitals, and emergency rooms to save lives.
To invest in EPR-Technologies’ innovative technology before the crowdfunding campaign closes, please visit https://www.startengine.com/EPR-Technologies.
To watch the TEDx Talk by Samuel Tisherman, M.D. on 'A Cool Way To Save Dying Trauma Patients' visit https://www.youtube.com/watch?v=Rgwfpl4q1ps
About EPR-Technologies
EPR-Technologies is a biomedical spinoff of the Safar Center for Resuscitation Research, University of Pittsburgh, and is committed to the preservation of human life through rapid profound hypothermia by introducing patented products for Emergency Preservation and Resuscitation (EPR) to save a life when standard cardiopulmonary resuscitation (CPR) fails.
DotCom Magazine Names EPR-Technologies the 2022 Impact Company of the Year.
For more information, please visit www.EPR-Technologies.com. Connect with EPR-Technologies on Facebook, Instagram, LinkedIn, and Twitter.