Physiological responses in reindeer to the application of a conducted electrical weapon

• Published in: Human-wildlife interactions Vol. 12; no. 2; pp. 160 - 170
• Main Authors: Lieske, Camilla L., Beckmen, Kimberlee B., Lewis, Larry L.
• Format: Journal Article
• Language: English
• Published: Logan Utah State University - Berryman Institute 01.10.2018; Jack H. Berryman Institute; Utah State University
• Subjects: Animals; Blood; Calcium-binding protein; Cardiology; Catecholamine; Catecholamines; Chemical weapons; conducted electrical weapon; Constraints; Emergency medical care; Exposure; Firearms; Fish hatcheries; Gangrene; Glucose; Hazing; Injuries; Lactic acid; Law enforcement; Moose; Myopathy; Organic chemistry; physiological response; Physiological responses; Physiology; Pretreatment; rangifer; reindeer; Research Articles/Notes; Short term; taser; Temperature; Troponin; Troponin I; Weapons; Wildlife; Xylazine; United States > US; Alaska; Iowa
• ISSN: 2155-3858; 2155-3874; 2155-3874
• DOI: 10.26077/Q03F-PN61

Conducted electrical weapons (CEWs) have potential as effective alternatives to chemical restraint for short-term nonroutine capture and handling of wildlife. To assess immediate and delayed physiologic effects of exposure to a CEW, we assigned 15 captive reindeer (Rangifer tarandus tarandus) to 1 of 3 treatment groups: immobilized with carfentanil and xylazine (CX), 10-second exposure to a CEW, or exposure to the CEW while immobilized with CX (CEW+CX). Blood samples were collected pre-treatment, immediately post-intervention, 10 minutes, 20 minutes, 4 hours, and 24 hours post-intervention. Physiologic effects were evaluated by analysis of blood, clinical observation for signs of physiologic compromise, and vital signs. Parameters that changed significantly (P < 0.05) post-exposure (lactate, glucose, rectal temperature, blood oxygen, cardiac troponin I, cortisol, and catecholamines) were not significantly different from baseline values within 24 hours. Cortisol, glucose, and peak rectal temperature were lower in CEW-exposed individuals, while lactate, oxygen, and catecholamines were higher than for the CX-exposed individuals. The catecholamine response observed in the CEW-only group paralleled the response in the CEW+CX group. No long-term health effects were detected from either restraint method. Use of a CEW does not appear to increase the risk of capture myopathy.