The University of Queensland, School of Human Movement and Nutrition Sciences, Australia.
The University of Queensland, School of Human Movement and Nutrition Sciences, Australia; School of Exercise and Nutrition Sciences, Queensland University of Technology, Australia.
J Sci Med Sport. 2020 Dec;23(12):1228-1233. doi: 10.1016/j.jsams.2020.05.013. Epub 2020 May 25.
Aviation Rescue Firefighters (ARFF) require physical fitness specific to the aviation environment. This study aims to determine the physical fitness of ARFF and predictors of performance on ARFF-specific tasks from laboratory-based fitness measures.
Cross-sectional, observational study.
Forty-two male ARFF (mean±SD; age 38.4±7.6 years, body mass index 26.2±2.2kgm) completed a physical fitness testing battery, comprising maximal aerobic capacity (V˙O), lactate threshold, anaerobic power, body composition (dual-energy X-ray absorptiometry), muscular strength (3 repetition maximum (3RM) bench and leg press) and muscular endurance (maximum curl ups and push ups) under controlled laboratory conditions. On a separate occasion, ARFF completed timed work-related tasks including a hose drag, dummy drag, Stihl saw hold, stair climb and simulated ARFF emergency protocol.
All participants finished the simulated ARFF emergency protocol under the criterion time (5min 50s); the average completion time was 4min and 31s. Performance time on the simulated ARFF emergency protocol was inversely correlated to V˙O (r=-0.514; p<0.001), anaerobic step test performance (r=-0.549; p<0.001), height (r=-0.325; p=0.038) and lean mass (r=-0.429; p=0.005). Higher fat mass (r=0.318; p=0.043) and % body fat (r=0.481; p=0.001) were associated with slower performance time. Muscular strength, muscular endurance and flexibility were not related to performance on the simulated ARFF emergency protocol.
Aerobic and anaerobic capacities, as well as body composition are the strongest predictors of simulated ARFF emergency protocol performance. This study highlights the importance of aerobic and anaerobic fitness, compared to muscular strength or muscular endurance, for ARFF job-specific performance, employment and training.
航空救援消防队员(ARFF)需要特定于航空环境的体能。本研究旨在从基于实验室的体能测试中确定 ARFF 的体能以及对 ARFF 特定任务表现的预测因素。
横断面,观察性研究。
42 名男性 ARFF(平均值±标准差;年龄 38.4±7.6 岁,体重指数 26.2±2.2kgm)在受控实验室条件下完成了体能测试电池,包括最大有氧能力(V˙O)、乳酸阈、无氧功率、身体成分(双能 X 射线吸收法)、肌肉力量(3 次重复最大(3RM)卧推和腿推)和肌肉耐力(最大卷腹和俯卧撑)。在另一个场合,ARFF 完成了计时的与工作相关的任务,包括水带拖拉、假人拖拉、斯蒂尔锯握持、爬楼梯和模拟 ARFF 紧急协议。
所有参与者都在规定时间内完成了模拟 ARFF 紧急协议(5 分 50 秒);平均完成时间为 4 分 31 秒。模拟 ARFF 紧急协议的完成时间与 V˙O(r=-0.514;p<0.001)、无氧台阶测试表现(r=-0.549;p<0.001)、身高(r=-0.325;p=0.038)和瘦体重(r=-0.429;p=0.005)呈负相关。较高的脂肪量(r=0.318;p=0.043)和体脂百分比(r=0.481;p=0.001)与较慢的完成时间相关。肌肉力量、肌肉耐力和柔韧性与模拟 ARFF 紧急协议的表现无关。
有氧和无氧能力以及身体成分是模拟 ARFF 紧急协议表现的最强预测因素。本研究强调了与肌肉力量或肌肉耐力相比,有氧和无氧健身对 ARFF 特定工作表现、就业和培训的重要性。
