*The superficial medial collateral ligament and other medial knee stabilizers-i.e., the deep medial collateral ligament and the posterior oblique ligament-are the most commonly injured ligamentous structures of the knee. *The main structures of the medial aspect of the knee are the proximal and distal divisions of the superficial medial collateral ligament, the meniscofemoral and meniscotibial divisions of the deep medial collateral ligament, and the posterior oblique ligament. *Physical examination is the initial method of choice for the diagnosis of medial knee injuries through the application of a valgus load both at full knee extension and between 20 degrees and 30 degrees of knee flexion. *Because nonoperative treatment has a favorable outcome, there is a consensus that it should be the first step in the management of acute isolated grade-III injuries of the medial collateral ligament or such injuries combined with an anterior cruciate ligament tear. *If operative treatment is required, an anatomic repair or reconstruction is recommended.
Interpretation of clinical knee motion testing following medial knee injuries will improve with the information in this study. Significant increases in external rotation at 30 degrees of knee flexion were found with all medial knee structures sectioned, which indicates that a positive dial test may be found not only for posterolateral knee injuries but also for medial knee injuries.
This anatomical medial knee reconstruction technique provides native stability and ligament load distribution in patients with chronic or severe acute medial knee injuries.
Dislocation of the knee is a relatively rare injury with modern arthroscopic techniques, operative reconstruction has become the standard of care. The primary aim of this study was to prospectively follow a large, consecutive series of patients with knee dislocation to document associated injuries, surgical treatment, knee function, and knee osteoarthritis (OA) at a minimum of 2 years follow-up. Hundred and twenty-two consecutive patients with a traumatic knee dislocation (Schenck II-IV) were treated at the Oslo University Hospital, Ulleval, between May 1996 and December 2004. Follow-up evaluation of 85 patients consisted of evaluation of knee joint laxity using the KT1000, the Lachman test, the pivot shift test, the reversed pivot shift, the posterior drawer test, the dial test, and the varus-valgus tests compared to the uninjured knee. Knee function was evaluated using the Lysholm score, the Tegner activity level score, the IKDC2000 score, and four single leg hop tests. Radiographic evaluation was performed using the Kellgren & Lawrence classification grade 0-4. Knee function at a minimum of 2 years after surgery disclosed a Lysholm score of a median of 83, a Tegner activity score of 5, and above 83% on all single leg hop tests compared to the uninjured side. Knee function was lower in the patients with a knee dislocation caused by high-energy trauma compared to low energy trauma. Eighty-seven percent had Kellgren & Lawrence grade 2 or higher for the injured knee compared to 35% for the uninjured knee.
The attachment locations of the main medial knee structures can be qualitatively and quantitatively correlated to osseous landmarks and projected radiographic lines, with close agreement among examiners.
This 2-graft technique to reconstruct the primary static stabilizers of the posterolateral knee restored static stability, as measured by joint translation in response to varus loading and external rotation torque, to knees with grade III posterolateral injuries.
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