Dynamic radiostereometry can objectively quantify the kinematic laxity patterns and rotation instability of the knee during a pivot‐shift test

AbstractPurposeThe pivot‐shift test is used to clinically assess knee instability in patients with anterior cruciate ligament (ACL) lesions; however, it has low interobserver reliability. Dynamic radiostereometry (dRSA) is a highly precise and noninvasive method for the objective evaluation of joint kinematics. The purpose of this study was to quantify precise knee kinematics during a pivot‐shift test using dRSA imaging.MethodEight human donor legs, including hemipelvises, were evaluated. Arthroscopic intervention was performed inducing ligament lesions in the ACL, and anterolateral ligament (ALL) section was performed as a capsular incision. The pivot‐shift test was recorded with dRSA on knees with intact ligaments, ACL‐deficient and ACL + ALL‐deficient knees.ResultsA pivot‐shift pattern was identifiable after ligament lesion, as a change in tibial posterior drawer velocity from 7.8 mm/s (95% CI: 3.7; 11.9) in ligament intact knees to 30.4 mm/s (95% CI 23.0; 38.8) after ACL lesion to 35.1 mm/s (95% CI 23.4; 46.7) after combined ACL‐ALL lesion. The anterior‐posterior drawer excursion increased from 2.8 mm (95% CI 2.1; 3.4) in ligament intact knees to 7.2 mm (95% CI 5.5; 8.9) after ACL lesion to 7.6 mm (95% CI 5.5; 9.8) after combined lesion. A statistically significant increase in tibial external rotation towards the end of the pivot‐shift motion was observed when progressing from intact to ACL + ALL‐deficient knees (p < 0.023).ConclusionThis experimental study demonstrates the feasibility of dRSA to objectively quantify the kinematic laxity patterns of the knee during the pivot‐shift test. The dynamic parameters obtained through dRSA revealed the kinematic changes from ACL to combined ACL‐ALL ligament lesion.Level of EvidenceNot applicable.