Anterior Cruciate Ligament Deficiency Alters the In Vivo Motion of the Tibiofemoral Cartilage Contact Points in Both the Anteroposterior and Mediolateral Directions

doi:10.2106/JBJS.E.00539

The Journal of Bone and Joint Surgery (American). 2006;88:1826-1834.
doi:10.2106/JBJS.E.00539
© 2006 The Journal of Bone and Joint Surgery, Inc.

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Anterior Cruciate Ligament Deficiency Alters the In Vivo Motion of the Tibiofemoral Cartilage Contact Points in Both the Anteroposterior and Mediolateral Directions

Guoan Li, PhD¹, Jeremy M. Moses, MD¹, Ramprasad Papannagari, MS¹, Neil P. Pathare, BS¹, Louis E. DeFrate, ScD¹ and Thomas J. Gill, MD¹

¹ Bioengineering Laboratory, Massachusetts General Hospital and Harvard Medical School, 55 Fruit Street, GRJ 1215, Boston, MA 02114. E-mail address for G. Li: gli1{at}partners.org

Investigation performed at the Department of Orthopaedic Surgery, BioengineeringLaboratory, Massachusetts General Hospital and Harvard Medical School,Boston, Massachusetts

NOTE: The authors thank Elizabeth Desouza and Dr. Ara Kassarjian fortechnical assistance.

In support of their research for or preparation of this manuscript,one or more of the authors received grants or outside fundingfrom the National Institutes of Health (AR052408), the NationalFootball League Charity Foundation, and the Department of OrthopaedicSurgery of Massachusetts General Hospital. None of the authorsreceived payments or other benefits or a commitment or agreementto provide such benefits from a commercial entity. No commercialentity paid or directed, or agreed to pay or direct, any benefits toany research fund, foundation, educational institution, or othercharitable or nonprofit organization with which the authorsare affiliated or associated.

Background: Quantifying the effects of anterior cruciate ligament deficiencyon joint biomechanics is critical in order to better understandthe mechanisms of joint degeneration in anterior cruciate ligament-deficientknees and to improve the surgical treatment of anterior cruciateligament injuries. We investigated the changes in position ofthe in vivo tibiofemoral articular cartilage contact pointsin anterior cruciate ligament-deficient and intact contralateralknees with use of a newly developed dual orthogonal fluoroscopic andmagnetic resonance imaging technique.

Methods: Nine patients with an anterior cruciate ligament rupturein one knee and a normal contralateral knee were recruited.Magnetic resonance images were acquired for both the intactand anterior cruciate ligament-deficient knees to constructcomputer knee models of the surfaces of the bone and cartilage.Each patient performed a single-leg weight-bearing lunge asimages were recorded with use of a dual fluoroscopic systemat full extension and at 15°, 30°, 60°, and 90°of flexion. The in vivo knee position at each flexion anglewas then reproduced with use of the knee models and fluoroscopicimages. The contact points were defined as the centroids ofthe areas of intersection of the tibial and femoral articular cartilagesurfaces.

Results: The contact points moved not only in the anteroposterior directionbut also in the mediolateral direction in both the anteriorcruciate ligament-deficient and intact knees. In the anteroposteriordirection, the contact points in the medial compartment of thetibia were more posterior in the anterior cruciate ligament-deficientknees than in the intact knees at full extension and 15°of flexion (p < 0.05). No significant differences were observedwith regard to the anteroposterior motion of the contact pointsin the lateral compartment of the tibia. In the mediolateral direction,there was a significant lateral shift of the contact pointsin the medial compartment of the tibia toward the medial tibialspine between full extension and 60° of flexion (p <0.05). The contact points in the lateral compartment of thetibia shifted laterally, away from the lateral tibial spine,at 15° and 30° of flexion (p < 0.05).

Conclusions: In the presence of anterior cruciate ligament injury, thecontact points shift both posteriorly and laterally on the surfaceof the tibial plateau. In the medial compartment, the contactpoints shift toward the medial tibial spine, a region wheredegeneration is observed in patients with chronic anterior cruciateligament injuries.

Clinical Relevance: This in vivo measurement technique may beuseful for assessing the ability of an anterior cruciate ligamentreconstruction to restore normal tibiofemoral cartilage contactbiomechanics. The observed altered motions of the tibiofemoralcontact points might change contact stress distributions inthe cartilage and predispose the joint to degenerative changes.

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