Abstract
We analyzed tunnel length, graft bending angle, and stress of the graft according to tunnel entry position and aspect ratio (ASR: ratio of anteroposterior depth to mediolateral width) of the articular surface for the distal femur during single-bundle outside-in anterior cruciate ligament reconstruction (ACLR) surgery. We performed multiflexible body dynamic analyses with four ASR (98, 105, 111, and 117%) knee models. The various ASRs were associated with approximately 1 mm changes in tunnel length. The graft bending angle increased when the entry point was far from the lateral epicondyle and was larger when the ASR was smaller. The graft was at maximum stress, 117% ASR, when the tunnel entry point was near the lateral epicondyle. The maximum stress value at a 5 mm distance from the lateral epicondyle was 3.5 times higher than the 15 mm entry position, and the cases set to 111% and 105% ASR showed 1.9 times higher stress values when at a 5 mm distance compared with a 15 mm distance. In the case set at 98% ASR, the low-stress value showed a without-distance difference from the lateral epicondyle. Our results suggest that there is no relationship between the ASR and femoral tunnel length. A smaller ASR causes a higher graft bending angle, and a larger ASR causes greater stress in the graft.
Highlights
The anterior cruciate ligament (ACL) in the knee joint is a frequently damaged ligament
The femoral tunnel position should be considered as an important parameter when planning Anterior cruciate ligament reconstruction (ACLR) to restore knee stability [5, 6]
This study is aimed at confirming through computational analysis whether aspect ratio (ASR), which was not examined in previous studies, should be considered for current surgical procedures
Summary
The anterior cruciate ligament (ACL) in the knee joint is a frequently damaged ligament. Clinical studies have not shown that ACLR reliably prevents cartilage lesions and restores knee stability to normal values [3, 4]. The femoral tunnel position should be considered as an important parameter when planning ACLR to restore knee stability [5, 6]. The instrument indicates the ACL footprint and the tunnel entry point at the lateral epicondyle. The surgeon creates a tunnel by drilling in the direction guided by the instrument, and the operator can adjust the tunnel entry position at the lateral epicondyle. Many studies have been conducted on the effect of tunnel position on surgical outcome, and the femoral tunnel position is an important parameter when planning ACLR to restore knee stability [8].
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