Taser X26 Discharges in Swine: Ventricular Rhythm Capture is Dependent on Discharge Vector
Autor: | Robert J. Walter, Frederic Starr, Kimberly K. Nagy, Daniel J. Valentino, Kimberly Joseph, Faran Bokhari, Dorion Wiley, Roxanne R. Roberts, Bosko Margeta, Andrew Dennis |
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Rok vydání: | 2008 |
Předmět: |
Cardiac function curve
Heart disease Swine Heart Ventricles Taser Poison control Critical Care and Intensive Care Medicine Ventricular tachycardia Electrocardiography Rhythm Animals Medicine Sinus rhythm business.industry medicine.disease Electric Injuries Death Sudden Cardiac Heart Injuries Echocardiography Anesthesia Ventricular Fibrillation Ventricular fibrillation Tachycardia Ventricular Surgery Weapons business |
Zdroj: | Journal of Trauma: Injury, Infection & Critical Care. 65:1478-1487 |
ISSN: | 0022-5282 |
DOI: | 10.1097/ta.0b013e31818bc17a |
Popis: | Background: Data from our previous studies indicate that Taser X26 stun devices can acutely alter cardiac function in swine. We hypothesized that most transcardiac discharge vectors would capture ventricular rhythm, but that other vectors, not traversing the heart, would fail to capture the ventricular rhythm. Methods: Using an Institutional Animal Care and Use Committee (IACUC) approved protocol, four Yorkshire pigs (25–36 kg) were anesthetized, paralyzed with succinylcholine (2 mg/kg), and then exposed to 10 second discharges from a police-issue Taser X26. For most discharges, the barbed darts were pushed manually into the skin to their full depth (12 mm) and were arranged in either transcardiac (such that a straight line connecting the darts would cross the region of the heart) or non-transcardiac vectors. A total of 11 different vectors and 22 discharge conditions were studied. For each vector, by simply rotating the cartridge 180-degrees in the gun, the primary current-emitting dart was changed and the direction of current flow during the discharge was reversed without physically moving the darts. Echocardiography and electrocardiograms (ECGs) were performed before, during, and after all discharges. p values < 0.05 were considered significant. Results: ECGs were unreadable during the discharges because of electrical interference, but echocardiography images clearly demonstrated that ventricular rhythm was captured immediately in 52.5% (31 of 59) of the discharges on the ventral surface of the animal. In each of these cases, capture of the ventricular rhythm with rapid ventricular contractions consistent with ventricular tachycardia (VT) or flutter was seen throughout the discharge. A total of 27 discharges were administered with transcardiac vectors and ventricular capture occurred in 23 of these discharges (85.2% capture rate). A total of 32 non-transcardiac discharges were administered ventrally and capture was seen in only eight of these (25% capture rate). Ventricular fibrillation (VF) was seen with two vectors, both of which were transcardiac. In the remaining animals, VT occurred postdischarge until sinus rhythm was regained spontaneously. Conclusions: For most transcardiac vectors, Taser X26 caused immediate ventricular rhythm capture. This usually reverted spontaneously to sinus rhythm but potentially fatal VF was seen with two vectors. For some non-transcardiac vectors, capture was also seen but with a significantly (p < 0.0001) decreased incidence. |
Databáze: | OpenAIRE |
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