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Researchers successfully test modified stun gun with heart monitoring capability

Date:
August 9, 2016
Source:
Wake Forest Baptist Medical Center
Summary:
Researchers have successfully tested a prototype conducted electrical weapon (CEW) capable of recording a subject’s heart rate and rhythm while still delivering incapacitating electrical charges.
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Researchers at Wake Forest Baptist Medical Center have successfully tested a prototype conducted electrical weapon (CEW) capable of recording a subject's heart rate and rhythm while still delivering incapacitating electrical charges.

The study is published in the current online edition of the Journal of Forensic and Legal Medicine.

CEWs, best known by the brand name Taser -- have proved to be a generally safe and effective way for law-enforcement officers to subdue criminal suspects and threatening individuals in non-lethal situations. Cases of serious injury and death related to the use of these devices are extremely rare and often include other risk factors, including drug use and pre-existing medical conditions. But isolated reports of deaths occurring shortly after the use of CEWs have raised concerns they caused cardiac rhythm disturbances in targeted individuals. "The basic components of a CEW -- probes that penetrate the skin while attached to insulated wires connected to an electronic device -- are functionally similar to what is used to obtain an electrocardiogram," said Jason P. Stopyra, M.D., assistant professor of emergency medicine at Wake Forest Baptist and lead author of the study. "We set out to see if we could combine a heart monitoring device with an existing CEW to detect and store cardiac rhythms without impeding the function of the weapon, and we succeeded."

For the study, the research team modified standard law enforcement CEW cartridges to transmit electrocardiogram (EKG) signals then combined a miniaturized EKG recorder with a standard-issue CEW. In tests on human volunteers, the researchers' prototype device successfully produced both incapacitating charges and interpretable EKG signals.

"This serves as proof-of-concept that safety measures such as cardiac biomonitoring can be incorporated into CEWs and possibly other law enforcement devices," said William B. Bozeman, M.D., professor of emergency medicine at Wake Forest Baptist and senior author of the study. "Such devices, when fully developed, could alert law enforcement personnel to potential medical issues in real time and promote the rapid treatment of individuals who may suffer a medical crisis while in custody."


Story Source:

Materials provided by Wake Forest Baptist Medical Center. Note: Content may be edited for style and length.


Journal References:

  1. Jason P. Stopyra, Samuel I. Ritter, Jennifer Beatty, James C. Johnson, Douglas M. Kleiner, James E. Winslow, Alison R. Gardner, William P. Bozeman. A TASER conducted electrical weapon with cardiac biomonitoring capability: Proof of concept and initial human trial. Journal of Forensic and Legal Medicine, 2016; 43: 48 DOI: 10.1016/j.jflm.2016.07.003
  2. Jason P. Stopyra, Samuel I. Ritter, Jennifer Beatty, James C. Johnson, Douglas M. Kleiner, James E. Winslow, Alison R. Gardner, William P. Bozeman. A TASER conducted electrical weapon with cardiac biomonitoring capability: Proof of concept and initial human trial. Journal of Forensic and Legal Medicine, 2016; 43: 48 DOI: 10.1016/j.jflm.2016.07.003

Cite This Page:

Wake Forest Baptist Medical Center. "Researchers successfully test modified stun gun with heart monitoring capability." ScienceDaily. ScienceDaily, 9 August 2016. <www.sciencedaily.com/releases/2016/08/160809171356.htm>.
Wake Forest Baptist Medical Center. (2016, August 9). Researchers successfully test modified stun gun with heart monitoring capability. ScienceDaily. Retrieved May 23, 2017 from www.sciencedaily.com/releases/2016/08/160809171356.htm
Wake Forest Baptist Medical Center. "Researchers successfully test modified stun gun with heart monitoring capability." ScienceDaily. www.sciencedaily.com/releases/2016/08/160809171356.htm (accessed May 23, 2017).

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