Abstract
The anterior cruciate ligament (ACL) consists of an anteromedial bundle and a posterolateral bundle giving anteroposterior and rotational stability. It’s one of the most commonly injured ligaments and also one of the most commonly performed arthroscopic procedures. Management of ACL injuries is one of the most frequently studied subjects in the literature. Surgical management of ACL injuries varies from extraarticular tenodesis to arthroscopic transtibial reconstruction to double-bundle reconstruction to anatomic single-bundle reconstruction. Although double-bundle ACL reconstruction gives more rotational stability than anatomic single-bundle, functional outcome of both are the same, but the complication rates are much higher for double-bundle reconstruction. Hence, anatomic single-bundle ACL reconstruction has gained popularity. The femoral and tibial footprint of the ACL varies in shape and size; it can be oval, elliptical, rectangular, C-shape, and more. But all available ACL reconstruction techniques prepare a circular tunnel; hence, the footprint coverage of the native ACL is maximum after double-bundle reconstruction and less after anatomic single-bundle reconstruction. So, to have the benefit of double-bundle reconstruction with a single tunnel, we propose our technique of a single-tunnel double-bundle-like effect, with the footprint enhancing ACL reconstruction using our newly designed tunnel dilators.
Highlights
The anterior cruciate ligament (ACL) consists of 2 bundles: the anteromedial (AM) and the posterolateral (PL)
The ACL consists of the AM and PL bundle that works in synchronization during knee movements
The AM bundle is tight in flexion, and the PL bundle is tight in extension.[5]
Summary
Single-Tunnel Double-Bundle-Like Effect With Footprint Enhancing Anterior Cruciate Ligament. Anatomic studies of the ACL are of the suggestion that femoral ACL insertion is crescent shaped.[22,23,24,25,26] In addition, it has been suggested that the ACL femoral footprint varies in shape and can be circular, elliptical, kidney shaped, trapezoidal, ovoid, or triangular.[27] The tibial insertion site was found to be elliptical (51%), triangular (33%), and C-shaped (16%).[28] All available single-bundle reconstruction techniques create a circular tunnel that covers only a portion of the anatomic footprint. Our technique covers the maximum available footprint in size and shape through a single oval femoral and rectangular tibial tunnel, thereby creating a double-bundle-like effect with single-bundle reconstruction
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