Pinto Manuel, Crisóstomo João, Kirk Christopher, Abián-Vicén Javier, Monteiro Luís
CIDEFES, Faculdade de Educação Física e Desporto, Lusófona University, 1749-024 Lisbon, Portugal.
Sport and Physical Activity Research Centre, Sheffield Hallam University, Collegiate Crescent, Sheffield S10 2BP, UK.
Sports (Basel). 2025 Aug 21;13(8):281. doi: 10.3390/sports13080281.
Despite the known relevance of punch impact in boxing, limited evidence exists regarding how anthropometric and muscle performance variables contribute to it. This study investigated the relationship between anthropometric characteristics, muscle power and strength performance, and punch impact power in 69 boxing practitioners (mean ± SD age: 27.0 ± 6.1 years). Anthropometric variables (body height (BH), armspan (AS), body mass (BM)) and muscle power and strength tests (countermovement jump (CMJ), one repetition maximum in bench press (1RM BP), and handgrip strength (HS)) were assessed. Punch impact power was assessed with PowerKube (PK), a specific device designed to measure punch impact power. Punch impact power was positively correlated with BH, AS, and BM. Linear regression indicated that BH and AS explained about 36% of the variance in Straight punch impact power and 30-34% in Hook punch impact power. BM showed weaker predictive capacity, explaining 10% of the variance in Straight punch impact power and 11% in Hook punch impact power. When comparing punch impact power differences across groups with varying BH, AS, and BM, it was found that groups with High BH exhibited higher punch impact power than the groups with Low and Medium BH for both Straight and Hook punches. For AS, the High AS group also demonstrated higher punch impact power, with similar trends for BM, where significant differences were observed only between the High and Low BM groups. Additionally, our findings confirm significant relationships between anthropometric characteristics, muscle power, and strength performance. These findings highlight the importance of a comprehensive assessment of anthropometric profiles, alongside muscle power and strength evaluations, to better predict punch impact power. This approach provides valuable insights for boxing training and may also inform exercise programming for the general population.
尽管已知拳击运动中拳的冲击力具有重要意义,但关于人体测量学和肌肉性能变量如何影响拳的冲击力,现有证据有限。本研究调查了69名拳击从业者(平均年龄±标准差:27.0±6.1岁)的人体测量学特征、肌肉力量和爆发力表现与拳的冲击力之间的关系。评估了人体测量学变量(身高(BH)、臂展(AS)、体重(BM))以及肌肉力量和爆发力测试(反向纵跳(CMJ)、卧推一次最大重复量(1RM BP)和握力(HS))。使用PowerKube(PK)评估拳的冲击力,PowerKube是一种专门设计用于测量拳的冲击力的设备。拳的冲击力与身高、臂展和体重呈正相关。线性回归表明,身高和臂展解释了直拳冲击力约36%的方差以及勾拳冲击力30 - 34%的方差。体重的预测能力较弱,解释了直拳冲击力10%的方差以及勾拳冲击力11%的方差。在比较不同身高、臂展和体重组之间的拳的冲击力差异时,发现高身高组在直拳和勾拳方面的拳的冲击力均高于低身高组和中等身高组。对于臂展,高臂展组也表现出更高的拳的冲击力,体重方面也有类似趋势,仅在高体重组和低体重组之间观察到显著差异。此外,我们的研究结果证实了人体测量学特征、肌肉力量和爆发力表现之间存在显著关系。这些发现强调了全面评估人体测量学特征以及肌肉力量和爆发力的重要性,以便更好地预测拳的冲击力。这种方法为拳击训练提供了有价值的见解,也可能为一般人群的运动规划提供参考。
