Psychology, Sport and Exercise Department, Sport and Exercise Science Section, Teesside University, Middlesbrough, United Kingdom; and.
Middlesbrough Football Club, Riverside Stadium, Middlesbrough, United Kingdom.
J Strength Cond Res. 2020 Nov;34(11):3164-3172. doi: 10.1519/JSC.0000000000002623.
Richardson, MC, Murphy, S, Macpherson, T, English, B, Spears, I, and Chesterton, P. Effect of sand on knee load during a single-leg jump task: implications for injury prevention and rehabilitation programs. J Strength Cond Res 34(11): 3164-3172, 2020-The purpose of the study was to determine potential differences in landing strategies and subsequent joint loads at the knee (knee abduction moment [KAM], anterior-posterior [AP] tibial translation, and total knee shear force) when jumping onto sand and firm ground from both a level surface and a 30-cm height. Firm ground would act as the control for the study. Seventeen subjects (age: 23.6 ± 3.7 years; body mass: 67.7 ± 10.3 kg; height: 168.5 ± 7.4 cm) performed 3 single-leg jumps on their dominant leg for each of the 4 conditions tested (ground level, sand level, ground height, and sand height). A repeated-measures design investigated the effect of sand on KAM, AP tibial translation, and total knee shear force. Data were analyzed using magnitude-based inferences and presented as percentage change with 90% confidence limits. Results indicated that sand had a clear beneficial effect on KAM, which was possibly moderate during a drop jump (30 cm) and possibly small from a level jump. Sand also had a possibly moderate beneficial effect on AP tibial translation from a level jump. The effect of sand on total knee shear force was unclear. These results suggest that sand may provide a safer alternative to firm ground when performing jump tasks commonly used in anterior cruciate ligament and patellofemoral joint injury prevention and rehabilitation programs. Sand may also allow for an accelerated rehabilitation program because jumping activities could potentially be implemented more safely at an earlier stage in the process.
理查德森,MC,墨菲,S,麦克弗森,T,英格利希,B,斯皮尔斯,I,和切斯特顿,P。单腿跳跃任务中沙子对膝关节负荷的影响:对损伤预防和康复计划的意义。J 强能力研究 34(11):3164-3172,2020-本研究的目的是确定在从水平表面和 30 厘米高度跳下时,在沙地上和硬地上跳跃时,潜在的着陆策略和随后的膝关节负荷(膝关节外展力矩[KAM]、前后[AP]胫骨平移和总膝关节剪切力)差异。硬地将作为本研究的对照。17 名受试者(年龄:23.6±3.7 岁;体重:67.7±10.3kg;身高:168.5±7.4cm)在 4 种测试条件下(地面水平、沙面水平、地面高度和沙面高度),每条腿各进行 3 次单腿跳跃。采用重复测量设计研究沙子对 KAM、AP 胫骨平移和总膝关节剪切力的影响。数据采用基于幅度的推断进行分析,并以百分比变化和 90%置信区间表示。结果表明,沙子对 KAM 有明显的有益影响,在跳下(30cm)时可能是中度,在平地跳跃时可能是小的。沙子对从平地跳跃的 AP 胫骨平移也有中度有益的影响。沙子对总膝关节剪切力的影响尚不清楚。这些结果表明,当进行常用于前交叉韧带和髌股关节损伤预防和康复计划的跳跃任务时,沙子可能是硬地的更安全替代物。沙子还可能允许更安全地在康复过程的早期阶段实施跳跃活动,从而加速康复计划。
