AI Article Synopsis
- Previous research indicates that increased hamstring activation can help counteract anterior tibial translation (ATT) in knees lacking an ACL, but the specific effects of this compensation are not fully understood.
- The study aimed to measure how much hamstring activation is needed to compensate for ATT during walking in ACL-deficient knees and to assess the impact on quadriceps activation and joint contact forces.
- Findings revealed that while full compensation (100%) requires excessive muscle activation and increases joint contact forces significantly, partial compensation (50%) is achievable with less muscle exertion and results in reduced joint stress, making it a healthier option.
Article Abstract
Previous research has shown that an increase in hamstring activation may compensate for anterior tibial transalation (ATT) in patients with anterior cruciate ligament deficient knee (ACLd); however, the effects of this compensation still remain unclear. The goals of this study were to quantify the activation of the hamstring muscles needed to compensate the ATT in ACLd knee during the complete gait cycle and to evaluate the effect of this compensation on quadriceps activation and joint contact forces. A two dimensional model of the knee was used, which included the tibiofemoral and patellofemoral joints, knee ligaments, the medial capsule and two muscles units. Simulations were conducted to determine the ATT in healthy and ACLd knee and the hamstring activation needed to correct the abnormal ATT to normal levels (100% compensation) and to 50% compensation. Then, the quadriceps activation and the joint contact forces were calculated. Results showed that 100% compensation would require hamstring and quadriceps activations larger than their maximum isometric force, and would generate an increment in the peak contact force at the tibiofemoral (115%) and patellofemoral (48%) joint with respect to the healthy knee. On the other hand, 50% compensation would require less force generated by the muscles (less than 0.85 of maximum isometric force) and smaller contact forces (peak tibiofemoral contact force increased 23% and peak patellofemoral contact force decreased 7.5% with respect to the healthy knee). Total compensation of ATT by means of increased hamstring activity is possible; however, partial compensation represents a less deleterious strategy.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2923375 | PMC |
| http://dx.doi.org/10.2174/1874120701004010099 | DOI Listing |
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