执法人员枪械训练教学和 15 米往返测试对心肺功能的要求。

medRxiv - Occupational and Environmental Health Pub Date : 2024-03-04 DOI:10.1101/2024.02.27.24303347

Joseph Warwick, Sophie Cooper, Flaminia Ronca

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引用次数: 0

摘要

目标：执法机构要求达到最低体能标准，以保障其警员和培训人员的安全。枪械教官（FI）应保持与其业务同行相同的标准。本研究旨在量化 FI 的日常生理需求。方法：19 名 FI（45 ± 5 岁）在佩戴心率 (HR) 监测器的情况下完成了至少 10 天的职业任务。在跑步机测试（TT）和多级穿梭测试（ST）中对 FI 进行了 VO2max 测试。线性回归模型用于模拟整个 TT 过程中 VO2 与心率之间的关系。该模型适用于职业任务中的心率数据，以推断耗氧量。重复测量方差分析用于比较整个过程中在 VO2 最大值等效区所花费的时间。结果ST（45.1 ± 5.6 毫升/千克/分钟）期间达到的最大氧消耗量明显高于 TT（39 ± 3 毫升/千克/分钟）（p = 0.014）。ST（06:26 分钟）与 TT（13:16 分钟）相比，力竭时间更短（p <.001）。FI 85% 的工作时间需氧量低于 20 ml/kg/min（p < .005）。在强度最大的职业任务中，FI 的最大 VO2 值≥30 毫升/千克/分钟，但为 40 毫升/千克/分钟。结论使用 ST 评估心肺功能会导致更快的力竭时间和更高的 VO2max。FI的职业任务主要是低强度的，零星的暴露要求VO2max达到<40 ml/kg/min。为了保护金融情报人员免受与职业相关的心肺或长期健康问题的影响，直观地说，体能标准应超过 40 毫升/千克/分钟的 VO2max。

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Cardiorespiratory demands of firearms training instruction and 15m shuttle tests in law enforcement.

Objectives: Law enforcement agencies require minimum fitness standards to safeguard their officers and training staff. Firearms instructors (FI) are expected to maintain the same standards as their operational counterparts. This study aimed to quantify the daily physiological demands placed on FI. Methods: 19 FI (45 ± 5 years) completed occupational tasks whilst wearing heart rate (HR) monitors for a minimum 10 days. VO2max testing was conducted on FI during a treadmill test (TT) and a multistage shuttle test (ST). Linear regression models were used to model the relationship between VO2 and HR throughout the TT. This model was applied to HR data from occupational tasks to infer oxygen consumption. Repeated Measures ANOVAs were used to compare time spent in VO2max equivalent zones throughout. Results: The VO2max achieved during ST (45.1 ± 5.6 ml/kg/min) was significantly higher than TT (39 ± 3 ml/kg/min) (p = 0.014). Time to exhaustion was sooner on ST (06:26 min) compared to TT (13:16 min) (p < .001). FI spent ~85% of occupational time with an oxygen demand ≤20 ml/kg/min (p < .005). The most intense occupational tasks saw FI achieve a VO2max ≥30 ml/kg/min, but <40 ml/kg/min. Conclusion: Using ST to assess cardiorespiratory fitness resulted in a quicker time to exhaustion and a higher VO2max. Predominantly, FI occupational tasks are low intensity with sporadic exposures requiring a VO2max of >40 ml/kg/min. To safeguard FI from occupational-related cardiorespiratory or long-term health issues, it is intuitive to suggest fitness standards should exceed a VO2max of 40 ml/kg/min.

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medRxiv - Occupational and Environmental Health

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