髌腱在康复练习中的负荷进展:对髌腱损伤治疗的影响。
Patellar Tendon Load Progression during Rehabilitation Exercises: Implications for the Treatment of Patellar Tendon Injuries.
机构信息
Department of Orthopaedic Surgery, University of Pennsylvania School of Medicine, Philadelphia, PA.
Department of Physical Therapy, University of Pittsburgh, Pittsburgh, PA.
出版信息
Med Sci Sports Exerc. 2024 Mar 1;56(3):545-552. doi: 10.1249/MSS.0000000000003323. Epub 2023 Oct 16.
PURPOSE
This study aimed to evaluate patellar tendon loading profiles (loading index, based on loading peak, loading impulse, and loading rate) of rehabilitation exercises to develop clinical guidelines to incrementally increase the rate and magnitude of patellar tendon loading during rehabilitation.
METHODS
Twenty healthy adults (10 females/10 males, 25.9 ± 5.7 yr) performed 35 rehabilitation exercises, including different variations of squats, lunge, jumps, hops, landings, running, and sports specific tasks. Kinematic and kinetic data were collected, and a patellar tendon loading index was determined for each exercise using a weighted sum of loading peak, loading rate, and cumulative loading impulse. Then the exercises were ranked, according to the loading index, into tier 1 (loading index ≤0.33), tier 2 (0.33 < loading index <0.66), and tier 3 (loading index ≥0.66).
RESULTS
The single-leg decline squat showed the highest loading index (0.747). Other tier 3 exercises included single-leg forward hop (0.666), single-leg countermovement jump (0.711), and running cut (0.725). The Spanish squat was categorized as a tier 2 exercise (0.563), as was running (0.612), double-leg countermovement jump (0.610), single-leg drop vertical jump (0.599), single-leg full squat (0.580), double-leg drop vertical jump (0.563), lunge (0.471), double-leg full squat (0.428), single-leg 60° squat (0.411), and Bulgarian squat (0.406). Tier 1 exercises included 20 cm step up (0.187), 20 cm step down (0.288), 30 cm step up (0.321), and double-leg 60° squat (0.224).
CONCLUSIONS
Three patellar tendon loading tiers were established based on a combination of loading peak, loading impulse, and loading rate. Clinicians may use these loading tiers as a guide to progressively increase patellar tendon loading during the rehabilitation of patients with patellar tendon disorders and after anterior cruciate ligament reconstruction using the bone-patellar tendon-bone graft.
目的
本研究旨在评估康复运动中的髌腱载荷分布(基于载荷峰值、载荷脉冲和载荷率的载荷指数),以制定临床指南,在康复过程中逐渐增加髌腱的载荷率和幅度。
方法
20 名健康成年人(10 名女性/10 名男性,25.9±5.7 岁)进行了 35 项康复运动,包括不同形式的深蹲、弓步、跳跃、单足跳、落地、跑步和特定运动项目。采集运动学和动力学数据,并使用载荷峰值、载荷率和累积载荷脉冲的加权和确定每个运动的髌腱载荷指数。然后,根据载荷指数将运动分为 3 个等级,等级 1(载荷指数≤0.33)、等级 2(0.33<载荷指数<0.66)和等级 3(载荷指数≥0.66)。
结果
单腿下降深蹲的载荷指数最高(0.747)。其他等级 3 的运动包括单腿向前跳跃(0.666)、单腿反跳(0.711)和跑步变向(0.725)。西班牙深蹲被归类为等级 2 的运动(0.563),与跑步(0.612)、双腿反跳(0.610)、单腿垂直跳(0.599)、双腿深蹲(0.580)、单腿垂直跳(0.563)、弓步(0.471)、双腿深蹲(0.428)、单腿 60°深蹲(0.411)和保加利亚深蹲(0.406)相同。等级 1 的运动包括 20 厘米上台阶(0.187)、20 厘米下台阶(0.288)、30 厘米上台阶(0.321)和双腿 60°深蹲(0.224)。
结论
基于载荷峰值、载荷脉冲和载荷率的组合,建立了 3 个髌腱载荷等级。临床医生可以使用这些载荷等级作为指导,在髌腱疾病患者的康复过程中以及使用髌腱-骨-骨移植物进行前交叉韧带重建后,逐渐增加髌腱的载荷。
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