Department of Emergency Medicine, Hennepin County Medical Center, Minneapolis, MN, USA.
Acad Emerg Med. 2010 Jul;17(7):e60-8. doi: 10.1111/j.1553-2712.2010.00813.x.
Law enforcement authorities are often charged with controlling resisting suspects. These encounters sometimes result in the sudden and unexpected death of the suspect. Drug intoxication, excited delirium syndrome, or excessive uses of force are factors that are often blamed, but sometimes the mechanism of these deaths is not fully understood. It is possible that worsening acidosis or excessive catecholamine release play a part. The objective of this study was to determine the effect on markers of acidosis and catecholamines of various tasks intended to simulate common arrest-related situations.
Subjects were assigned to one of five task groups: 1) a 150-meter sprint and wall hurdle (simulated flight from arrest); 2) 45 seconds of striking a heavy bag (simulated physical resistance); 3) a 10-second TASER X26 electronic control device exposure; 4) a fleeing and resistance exercise involving a law enforcement dog (K-9); or 5) an oleoresin capsicum (OC) exposure to the face and neck. Baseline serum pH, lactate, potassium, troponin I, catecholamines, and creatine kinase (CK) were evaluated. Serum catecholamines, pH, lactate, and potassium were sampled immediately after the task and every 2 minutes for 10 minutes posttask. Vital signs were repeated immediately after the task. Serum CK and troponin I were evaluated again at 24 hours posttask.
Sixty-six subjects were enrolled; four did not complete their assigned task. One subject lost the intravenous (IV) access after completing the task and did not have data collected, and one subject only received a 5-second TASER device exposure and was excluded from the study, leaving 12 subjects in each task group. The greatest changes in acidosis markers occurred in the sprint and heavy bag groups. Catecholamines increased the most in the heavy bag group and the sprint group and increased to a lesser degree in the TASER, OC, and K-9 groups. Only the sprint group showed an increase in CK at 24 hours. There were no elevations in troponin I in any group, nor any clinically important changes in potassium.
The simulations of physical resistance and fleeing on foot led to the greatest changes in markers of acidosis and catecholamines. These changes may be contributing or causal mechanisms in sudden custodial arrest-related deaths (ARDs). This initial work may have implications in guiding applications of force for law enforcement authorities (LEAs) when apprehending resisting subjects.
执法部门通常负责控制拒捕的嫌疑人。这些遭遇有时会导致嫌疑人突然意外死亡。药物中毒、兴奋性谵妄综合征或过度使用武力是常被指责的因素,但有时这些死亡的机制尚未完全了解。可能是酸中毒恶化或儿茶酚胺过度释放起了作用。本研究的目的是确定各种旨在模拟常见逮捕相关情况的任务对酸中毒和儿茶酚胺标志物的影响。
将受试者分配到五个任务组之一:1)150 米冲刺和翻越障碍物(模拟逃避逮捕);2)45 秒击打重沙袋(模拟身体抵抗);3)接受 10 秒 TASER X26 电子控制装置暴露;4)进行涉及警犬(K-9)的逃跑和抵抗运动;或 5)面部和颈部使用辣椒素(OC)。评估基线血清 pH 值、乳酸、钾、肌钙蛋白 I、儿茶酚胺和肌酸激酶(CK)。任务后立即取样血清儿茶酚胺、pH 值、乳酸和钾,并在任务后每 2 分钟取样 10 分钟。任务后立即重复生命体征。任务后 24 小时再次评估血清 CK 和肌钙蛋白 I。
共纳入 66 名受试者;有 4 名受试者未完成其指定任务。一名受试者在完成任务后失去静脉(IV)通路,且未收集数据,一名受试者仅接受了 5 秒的 TASER 设备暴露,因此被排除在研究之外,每组各有 12 名受试者。在冲刺和重沙袋组中,酸中毒标志物的变化最大。儿茶酚胺在重沙袋组和冲刺组中增加最多,在 TASER、OC 和 K-9 组中增加较少。只有冲刺组在 24 小时时 CK 升高。在任何组中均未发现肌钙蛋白 I 升高,钾也没有任何临床重要变化。
身体抵抗和徒步逃跑的模拟导致酸中毒和儿茶酚胺标志物的最大变化。这些变化可能是突然羁押相关死亡(ARD)的促成或因果机制。这项初步工作可能对指导执法部门(LEA)在逮捕拒捕者时应用武力具有重要意义。
