双侧自体腘绳肌腱一期重建前后交叉韧带损伤的临床疗效

目的:探讨关节镜辅助下使用双侧自体腘绳肌腱一期修复膝关节前后交叉韧带损伤的方法和临床疗效。方法:内窥镜微创双侧自体腘绳肌腱修复膝关节内韧带,术后用IKDC分级、影像学IKDC分级、Lysholm功能评分和KT2000TM测量进行关节机能打分。结果:11例患者获得3-5年随访,平均随访3.8年。术前Lysholm功能评分平均(46.8±5.7)分,终末随访时平均(81.3±10.5)分,差异有显著性(P<0.05)。术后关节稳定性测量,在20磅时、30磅和最大拉力时健膝和患膝分别是:6.1±0.3和6.8±0.8;6.3±0.5和7.7±1.3;7.5±0.6和9.6±2.4,统计学上差异无显著性(P>0.05)。主观IKDC分级:A级4例,B级6例,C级1例;影像学IKDC分级:A级8例,B级2例,C级1例。结论:关节镜辅助下使用双侧自体腘绳肌腱一期修复膝关节前后交叉韧带损伤是重建膝关节稳定性的良好有效方法。     

Patellar tendon and hamstring moment-arms and cross-sectional area in patients with anterior cruciate ligament reconstruction and controls

The purpose of this study was to examine the moment-arm and cross-sectional area (CSA) of the patellar tendon (PT) and the hamstrings after anterior cruciate ligament (ACL) reconstruction. The right knee of five males who underwent ACL reconstruction with a PT graft and five age-matched controls was scanned using magnetic resonance image scans. Based on three-dimensional (3D) solids of the PT, CSAs and moment-arms of semitendinous (ST), biceps femoris (BF) long head and semimembranosus (SM) were estimated. Analysis of variance indicated no significant group differences in muscle moment-arms (p>0.05). 3D moment-arms of PT, ST and BF were significantly lower than the corresponding 2D values (p < 0.05). The ACL group displayed a significantly higher maximum BF CSA, a lower ST CSA (p < 0.05) but similar PT and SM CSAs compared with controls. It is concluded that any alterations in PT properties 1 year after harvesting do not affect knee muscle moment-arms compared with age-matched controls. Moment-arm estimation differed between 3D and 2D data, although it did not affect comparisons between ACL reconstruction group and controls. Design of rehabilitation programmes should take into consideration a potential alteration in hamstring morphology following surgery with a PT graft.     

双侧自体腘绳肌腱一期重建前后交叉韧带损伤的临床疗效

目的：探讨关节镜辅助下使用双侧自体腘绳肌腱一期修复膝关节前后交叉韧带损伤的方法和临床疗效。方法：内窥镜微创双侧自体腘绳肌腱修复膝关节内韧带,术后用IKDC分级、影像学IKDC分级、Lysholm功能评分和KT2000TM测量进行关节机能打分。结果：11例患者获得3—5年随访,平均随访3．8年。术前Lysholm功能评分平均（46．8±5．7）分,终末随访时平均（81．3±10．5）分,差异有显著性（P〈0．05）。术后关节稳定性测量,在20磅时、30磅和最大拉力时健膝和患膝分别是：6．1±0．3和6．8±0．8;6．3±0．5和7．7±1。3;7．5±0．6和9．6±2．4,统计学上差异无显著性（P〉0．05）。主观IKDC分级：A级4例,B级6例,C级1例;影像学IKDC分级：A级8例,B级2例,C级1例。结论：关节镜辅助下使用双侧自体腘绳肌腱一期修复膝关节前后交叉韧带损伤是重建膝关节稳定性的良好有效方法。     

Knee joint biomechanics in closed-kinetic-chain exercises

Effective management of knee joint disorders demands appropriate rehabilitation programs to restore function while strengthening muscles. Excessive stresses in cartilage/menisci and forces in ligaments should be avoided to not exacerbate joint condition after an injury or reconstruction. Using a validated 3D nonlinear finite element model, detailed biomechanics of the entire joint in closed-kinetic-chain squat exercises are investigated at different flexion angles, weights in hands, femur-tibia orientations and coactivity in hamstrings. Predictions are in agreement with results of earlier studies. Estimation of small forces in cruciate ligaments advocates the use of squat exercises at all joint angles and external loads. In contrast, large contact stresses, especially at the patellofemoral joint, that approach cartilage failure threshold in compression suggest avoiding squatting at greater flexion angles, joint moments and weights in hands. Current results are helpful in comprehensive evaluation and design of effective exercise therapies and trainings with minimal risk to various components.     

Antagonist muscle co-contraction during a double-leg landing maneuver at two heights

Background: Knee injuries are common during landing activities. Greater landing height increases peak ground reaction forces (GRFs) and loading at the knee joint. As major muscles to stabilize the knee joint, Quadriceps and Hamstring muscles provide internal forces to attenuate the excessive GRF. Despite the number of investigations on the importance of muscle function during landing, the role of landing height on these muscles forces using modeling during landing is not fully investigated. Methods: Participant-specific musculoskeletal models were developed using experimental motion analysis data consisting of anatomic joint motions and GRF from eight male participants performing double-leg drop landing from 30 and 60 cm. Muscle forces were calculated in OpenSim and their differences were analyzed at the instances of high risk during landing i.e. peak GRF for both heights. Results: The maximum knee flexion angle and moments were found significantly higher from a double-leg landing at 60 cm compared to 30 cm. The results showed elevated GRF, and mean muscle forces during landing. At peak GRF, only quadriceps showed significantly greater forces at 60 cm. Hamstring muscle forces did not significantly change at 60 cm compared to 30 cm. Conclusions: Quadriceps and hamstring muscle forces changed at different heights. Since hamstring forces were similar in both landing heights, this could lead to an imbalance between the antagonist muscles, potentially placing the knee at risk of injury if combined with small flexion angles that was not observed at peak GRF in our study. Thus, enhanced neuromuscular training programs strengthening the hamstrings may be required to address this imbalance. These findings may contribute to enhance neuromuscular training programs to prevent knee injuries during landing.