优化伸缩周期性能：下落高度和着地策略对纵跳中下肢生物力学的影响

Optimizing stretch-shortening cycle performance: effects of drop height and landing strategy on lower-limb biomechanics in drop jumps.

作者信息

Zhang Qin, Li Fei, Trowell Danielle Anne, Hou Muzu, Qiu Zhenghe, Chen Shiqin, Ma Haifeng

机构信息

School of Athletic Performance, Shanghai University of Sport, Shanghai, China.

School of Exercise and Nutrition Sciences, Deakin University, Melbourne, Australia.

出版信息

PeerJ. 2025 May 21;13:e19490. doi: 10.7717/peerj.19490. eCollection 2025.

DOI:10.7717/peerj.19490

PMID:40416624

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12103163/

Abstract

BACKGROUND

The stretch-shortening cycle (SSC) enhances performance in jumping, sprinting, and changes of direction. Drop heights and landing strategies affect its efficiency. This study investigates the effects of varying drop heights and landing strategies (hip- . knee-dominant) on lower-limb stretch-shortening cycle performance during drop jumps (DJs), which involve a drop followed by an immediate vertical jump.

METHODS

A three-dimensional (3D) motion capture system and force plate collected biomechanical data from 18 college athletes performing DJs with hip- and knee-dominant strategies at 30, 45, and 60 cm heights. A two-factor repeated measures analysis of variance (ANOVA) compared peak impact force, reactive strength index (RSI), leg stiffness (K), joint stiffness (K), joint angular displacement, change in joint moment, and joint work (positive, negative, net) across heights and strategies.

RESULTS

Drop height significantly affected biomechanical variables ( < 0.05). Peak impact force and negative joint work increased from 30 cm to 60 cm, with the highest values at 60 cm. RSI, K, K, and net joint work peaked at 30 cm. Landing strategy significantly influenced outcomes ( < 0.05). The knee-dominant strategy had higher peak impact force, RSI, K, knee angular displacement, change in knee moment, and ankle work, but lower net knee work, compared to the hip-dominant strategy, which showed higher hip angular displacement and hip work. A significant interaction was observed between drop height and landing strategy ( < 0.05). The knee-dominant strategy had greater RSI, K, and positive ankle work at 30 cm, while the hip-dominant strategy had greater negative ankle work at 60 cm.

CONCLUSION

In DJs, SSC performance was optimised at a 30 cm drop height, with peak efficiency observed in the knee-dominant strategy. At 45 and 60 cm, SSC efficiency declined and knee energy dissipation increased, while the hip-dominant strategy may provide greater joint protection by increasing energy dissipation at the ankle. These findings suggest the knee-dominant strategy is best suited to 30 cm, whereas the hip-dominant strategy may enhance safety at higher drop heights.

摘要

背景

拉长-缩短周期（SSC）可提高跳跃、短跑和变向运动的表现。下落高度和着地策略会影响其效率。本研究调查了不同下落高度和着地策略（以髋部主导、以膝部主导）对下落跳（DJs）过程中下肢拉长-缩短周期表现的影响，下落跳包括一次下落紧接着一次垂直跳跃。

方法

一个三维（3D）运动捕捉系统和测力台收集了18名大学生运动员在30厘米、45厘米和60厘米高度下以髋部主导和膝部主导策略进行下落跳时的生物力学数据。采用双因素重复测量方差分析（ANOVA）比较了不同高度和策略下的峰值冲击力、反应力量指数（RSI）、腿部刚度（K）、关节刚度（K）、关节角位移、关节力矩变化和关节功（正向、负向、净功）。

结果

下落高度对生物力学变量有显著影响（P<0.05）。峰值冲击力和负向关节功从30厘米增加到60厘米，60厘米时达到最高值。RSI、K、K和净关节功在30厘米时达到峰值。着地策略对结果有显著影响（P<0.05）。与以髋部主导的策略相比，以膝部主导的策略具有更高的峰值冲击力、RSI、K、膝关节角位移、膝关节力矩变化和踝关节功，但净膝关节功较低，以髋部主导的策略表现出更高的髋关节角位移和髋关节功。在下落高度和着地策略之间观察到显著的交互作用（P<0.05）。在30厘米时，以膝部主导的策略具有更大的RSI、K和正向踝关节功，而在60厘米时，以髋部主导的策略具有更大的负向踝关节功。

结论

在下落跳中，在30厘米的下落高度下SSC表现得到优化，以膝部主导的策略观察到峰值效率。在45厘米和60厘米时，SSC效率下降且膝关节能量耗散增加，而以髋部主导的策略可能通过增加踝关节的能量耗散提供更大的关节保护。这些发现表明以膝部主导的策略最适合30厘米，而以髋部主导的策略可能在更高下落高度时提高安全性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5012/12103163/0a4207d0f7f7/peerj-13-19490-g001.jpg

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优化伸缩周期性能：下落高度和着地策略对纵跳中下肢生物力学的影响

Optimizing stretch-shortening cycle performance: effects of drop height and landing strategy on lower-limb biomechanics in drop jumps.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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