Sage Journals: Discover world-class research

Abstract

Dynamic three-dimensional motion analyses of 15 fresh human knee joints subjected to combinations of flexion velocity and moment, internal and external femoral torque, and horizontal shear before and after sectioning the ACL were performed. ACL deficient specimens demonstrated marked anterior instability without rota tional instability. The pivot shift phenomenon occurred with an isolated ACL deficiency and was the result of anterior instability. The pivot shift was accentuated by external femoral torque, decreased by internal femoral torque, and was present in the absence of any applied torque. The pivot shift produced a sudden directional change in the motion of both femoral condyles and may be responsible for the meniscal degeneration that ac companies chronic ACL deficiency.

Get full access to this article

View all access options for this article.

References

Blacharski PA , Somerset JH, Murray DG: A three-dimensional study of the kinematics of the human knee. J Biomech 8: 375-384, 1975

Brantigan OC , Voshell AF The mechanics of the ligaments and menisci of the knee joint J Bone Joint Surg 23A. 44-46, 1941

Butler DL, Noyes FR, Grood ES Ligamentous restraints to Anterior-posterior drawer in the human knee A biomechanical study J Bone Joint Surg 62A. 259-270, 1980

Fetto JF, Marshall JL Injury to the anterior cruciate ligament producing the pivot shift sign An experimental study on cadaver specimens J Bone Joint Surg 61A 710-714, 1979

Fick R. Handbuch der Anatomie und Mechanik der Gelenke. Teil 3 Gustav Fischer, Jena, 1911 pp 548-562

Girgis FG, Marshall JL, Al Monajem Ars. The cruciate ligaments of the knee joint Clin Orthop 106. 216-231, 1975

Grood ES, Noyes FR, Butler DL, et al Ligamentous and capsular restraints preventing straight medial and lateral laxity in intact human cadaver knees. J Bone Joint Surg 63-A 1257-1269, 1981

Hughston JC, Andrews JR, Cross MJ, et al. Classification of knee ligament instabilities. Part I The medial compartment and cruciate ligaments. Part II The lateral compartment. J Bone Joint Surg 58-A 159-179, 1976

Kapandji IA: The Physiology of Joints Vol II. New York, Churchill-LIvingstone, 1970

10.

Kennedy JC, Weinberg HW, Wilson AS The anatomy and function of the anterior cruciate ligament J Bone Joint Surg 56-A. 223-235, 1974

11.

Kettelkamp DB, Johnson RJ, Smidt GL, et al An electrogoniometric study of knee motion in normal gait J Bone Joint Surg 52-A 775-790, 1970

12.

Levens AS, Inman V., Blosser JA: Transverse rotation of the segments of the lower extremity in locomotion . J Bone Joint Surg 30-A. 859-872, 1948

13.

Markolf KL, Graff-Radfor A., Amstutz HC In vivo knee stability A quantitative assessment using an instrumented clinical testing apparatus J Bone Joint Surg 60-A 664-674, 1978

14.

Morrison JB . The bones transmitted by the human knee joint during activity. Doctoral dissertation, University of Strathclyde, 1967

15.

Murphy MC, Zarins BS, Jasty M., et al: In vivo measurement of the three-dimensional skeletal motion at the normal knee Trans Orthop Res Soc 10: 142, 1985

16.

Noyes FR, Grood ES, Suntay WJ, et al. The three-dimensional laxity of the anterior cruciate deficient knee as determined by clinical laxity tests lowa Orthop J 3. 32-44, 1984

17.

Palmer I. On the injuries to the ligaments of the knee joint. A clinical study . Acta Chir Scand (Suppl) 53. 1-282, 1938.

18.

Rovick JS, Reuben JD, Schrager RJ, et al.Mechanics of motions of the knee joint (J Orthop Res, in press, 1989

19.

Wang CJ, Walker PS Rotatory laxity of the human knee joint J Bone Joint Surg 56-A 161-171, 1974

20.

Weber W., Weber E. Mechanik der menschlichen Gehwerkzeuge Part II. Gottingen , Uber das Kniegelenk, 1836, pp 161-202

Three-dimensional dynamic motion analysis of the anterior cruciate ligament deficient knee joint

Abstract

Get full access to this article

References