Correlation between the knee adduction torque and medial contact force for a variety of gait patterns

Zhao, Dong; Banks, Scott A.; Mitchell, Kim H.; D'Lima, Darryl D.; Colwell, Jr, Clifford W.; Fregly, Benjamin J.

Affiliations

¹Department of Mechanical & Aerospace Engineering, University of Florida, Gainesville, Florida

²Department of Orthopaedics and Rehabilitation, University of Florida, Gainesville, Florida

³Department of Biomedical Engineering, University of Florida, Gainesville, Florida

⁴The Biomotion Foundation, Palm Beach, Florida

⁵Shiley Center for Orthopaedic Research & Education at Scripps Clinic, La Jolla, California

Abstract and keywords

The external knee adduction torque has been proposed as a surrogate measure for medial compartment load during gait. However, a direct link between these two quantities has not been demonstrated using in vivo measurement of medial compartment load. This study uses in vivo data collected from a single subject with an instrumented knee implant to evaluate this link. The subject performed five different overground gait motions (normal, fast, slow, wide, and toe-out) with simultaneous collection of instrumented implant, video motion, and ground reaction data. For each trial, the knee adduction torque was measured externally while the total axial force applied to the tibial insert was measured internally. Based on data collected from the same subject performing treadmill gait under fluoroscopic motion analysis, a regression equation was developed to calculate medial contact force from the implant load cell measurements. Correlation analyses were performed for the stance phase and entire gait cycle to quantify the relationship between the knee adduction torque and both the medial contact force and the medial to total contact force ratio. When the entire gait cycle was analyzed, R² for medial contact force was 0.77 when all gait trials were analyzed together and between 0.69 and 0.93 when each gait trial was analyzed separately (p < 0.001 in all cases). For medial to total force ratio, R² was 0.69 for all trials together and between 0.54 and 0.90 for each trial separately (p < 0.001 in all cases). When only the stance phase was analyzed, R² values were slightly lower. These results support the hypothesis that the knee adduction torque is highly correlated with medial compartment contact force and medial to total force ratio during gait.

Keywords: knee joint; adduction moment; gait; in vivo knee loads; total knee arthroplasty; instrumented knee implant

Links

DOI: 10.1002/jor.20379

PubMed: 17343285

WoS: 000246541300011

History

Received: 2006-05-05

Accepted: 2006-12-06

Online: 2007-03-07

Cited Works (13)

Year	Entry
1993	Söderkvist I, Wedin P-Å. Determining the movements of the skeleton using well-configured markers. J Biomech. December 1993;26(12):1473-1477.
2001	Anderson FC, Pandy MG. Dynamic optimization of human walking. J Biomech Eng. October 2001;123(5):381-390.
1991	Schipplein OD, Andriacchi TP. Interaction between active and passive knee stabilizers during level walking. J Orthop Res. January 1991;9(1):113-119.
1994	van den Bogert AJ, Smith GD, Nigg BM. In vivo determination of the anatomical axes of the ankle joint complex: an optimization approach. J Biomech. December 1994;27(12):1477-1488.
2005	Reinbolt JA, Schutte JF, Fregly BJ, Koh BI, Haftka RT, George AD, Mitchell KH. Determination of patient-specific multi-joint kinematic models through two-level optimization. J Biomech. March 2005;38(3):621-626.
1996	de Leva P. Adjustments to Zatsiorsky-Seluyanov's segment inertia parameters. J Biomech. September 1996;29(9):1223-1230.
1991	Blankevoort L, Kuiper JH, Huiskes R, Grootenboer HJ. Articular contact in a three-dimensional model of the knee. J Biomech. 1991;24(11):1019-1031.
1997	Glitsch U, Baumann W. The three-dimensional determination of internal loads in the lower extremity. J Biomech. November–December 1997;30(11-12):1123-1131.
1993	Cripton PA. Compressive Characterization of Ultra High Molecular Weight Polyethylene With Applications to Contact Stress Analysis of Total Knee Replacements [Master's thesis]. Queen's University; 1993.
1998	Sharma L, Hurwitz DE, Thonar EJ-MA, Sum JA, Lenz ME, Dunlop DD, Schnitzer TJ, Kirwan-Mellis G, Andriacchi TP. Knee adduction moment, serum hyaluronan level, and disease severity in medial tibiofemoral osteoarthritis. Arthritis Rheum. July 1998;41(7):1233-1240.
1998	Hurwitz DE, Sumner DR, Andriacchi TP, Sugar DA. Dynamic knee loads during gait predict proximal tibial bone distribution. J Biomech. May 1998;31(5):423-430.
2002	Hurwitz DE, Ryals AB, Case JP, Block JA, Andriacchi TP. The knee adduction moment during gait in subjects with knee osteoarthritis is more closely correlated with static alignment than radiographic disease severity, toe out angle and pain. J Orthop Res. January 2002;20(1):101-107.
1997	Reinschmidt C, van den Bogert A, Nigg B, Lundberg A, Murphy N. Effect of skin movement on the analysis of skeletal knee joint motion during running. J Biomech. July 1997;30(7):729-732.

Cited By (30)

Year	Entry
2021	Thewlis D, Waters A, Solomon LB, Perilli E. Investigating in vivo knee volumetric bone mineral density and walking gait mechanics in healthy people. Bone. February 2021;143:115662.
2012	Steele KM, DeMers MS, Schwartz MH, Delp SL. Compressive tibiofemoral force during crouch gait. Gait Post. April 2012;35(4):556-560.
2007	Fregly BJ, Reinbolt JA, Rooney KL, Mitchell KH, Chmielewski TL. Design of patient-specific gait modifications for knee osteoarthritis rehabilitation. IEEE Trans Biomed Eng. September 2007;54(9):1687-1695.
2023	Kaneda JM, Seagers KA, Uhlrich SD, Kolesar JA, Thomas KA, Delp SL. Can static optimization detect changes in peak medial knee contact forces induced by gait modifications? J Biomech. May 2023;152:111569.
2022	Rapagna S, Roberts BC, Solomon LB, Reynolds KJ, Thewlis D, Perilli E. Relationships between tibial articular cartilage, in vivo external joint moments and static alignment in end-stage knee osteoarthritis: a micro-CT study. J Orthop Res. May 2022;40(5):1125-1134.
2022	Teoli A, Cloutier-Gendron M, Ho SYK, Gu S, Pelletier J-P, Martel-Pelletier J, Robbins SM. The relationship between knee loading during gait and cartilage thickness in nontraumatic and posttraumatic knee osteoarthritis. J Orthop Res. August 2022;40(8):1778-1786.
2022	Neal K, Williams JR, Alfayyadh A, Capin JJ, Khandha A, Manal K, Snyder-Mackler L, Buchanan TS. Knee joint biomechanics during gait improve from 3 to 6 months after anterior cruciate ligament reconstruction. J Orthop Res. September 2022;40(9):2025-2038.
2011	Conrad J. The Biomechanical Effects of an Externally Applied Orthosis on Medial Compartment Knee Osteoarthritis [Master's thesis]. Halifax, NS: Dalhousie University; December 2011.
2012	Harding GT. Obesity, Moderate Knee Osteoarthritis, and Knee Joint Dynamics [Master's thesis]. Halifax, NS: Dalhousie University; July 2012.
2013	Young KL. Patient-Specific Patterns of Passive and Dynamic Knee Joint Mechanics Before and After Total Knee Arthroplasty [Master's thesis]. Halifax, NS: Dalhousie University; July 2013.
2017	Outerleys J. Modeling the Patient Variability and Hierarchy in Joint-Level Kinematic and Kinetic Function Before and After Primary Total Knee Arthroplasty Surgery [Master's thesis]. Halifax, NS: Dalhousie University; March 2017.
2018	Costello KE. Overall Knee Joint Loading Exposure and Clinical Progression of Knee Osteoarthritis [PhD thesis]. Halifax, NS: Dalhousie University; August 2018.
2014	Lathrop RL. Investigation of Measurable Biomechanical Factors That May Influence Articular Cartilage Degeneration in the Knee [PhD thesis]. The Ohio State University; 2014.
2014	Adouni M. Analyse biomécanique de l'articulation de genou durant la bipédie humaine [PhD thesis]. École polytechnique de Montréal; July 2014.
2011	Hast MW. Assessment of Total Knee Replacement Performance Using Muscle-Driven Dynamic Simulations [PhD thesis]. State College, PA: Pennsylvania State University; August 2011.
2009	Brandon SCE. The Effects of Alternative Joint Models in the Study of Lower-Limb Joint Moments in Knee Osteoarthritis [Master's thesis]. Queen's University; July 2009.
2015	Brandon SCE. Brace Yourself: Reducing Medial Knee Loading for Treatment of Osteoarthritis [PhD thesis]. Queen's University; January 2015.
2018	Clouthier AL. The Relationship Between Knee Joint Shape and Function: Implications for Pathology and Treatment [PhD thesis]. Queen's University; September 2018.
2018	Neville SR. Methods for Improving Ability to Investigate the Effectiveness of Non-Invasive Treatment Strategies for Medial Knee OA [Master's thesis]. Queen's University; September 2018.
2008	Erhart JC. Efficacy of a Variable -Stiffness Footwear Intervention for Treatment of Medial Compartment Knee Osteoarthritis [PhD thesis]. Stanford University; November 2008.
2012	Steele KM. The Dynamics of Crouch Gait in Cerebral Palsy [PhD thesis]. Stanford University; July 2012.
2015	DeMers MS. Computer Modeling of Muscle Coordination Strategies That Decrease Joint Loads [PhD thesis]. Stanford University; December 2015.
2022	Vijayan V. The Effects of Added Mass on Gait Kinematics, Kinetics and Muscle Activity [PhD thesis]. University of Dayton; May 2022.
2008	Zeni JA Jr. Alterations in Joint Loading and Muscle Coordination Strategies With the Progression of Medial Compartment Knee Osteoarthritis [PhD thesis]. University of Delaware; 2008.
2009	Barrios JA IV. A Biomechanical Assessment of Young, Asymptomatic Individuals With Varus Knee Alignment: Can Gait Retraining be Beneficial? [PhD thesis]. University of Delaware; Winter 2009.
2014	Flowers PPE. Biomechanical and Clinical Influences on Recovery and Osteoarthritis Progression After Total Knee Arthroplasty [PhD thesis]. University of Delaware; 2014.
2015	Henderson C. Effect of Common Gait Modifications on Knee Joint Loading and Loading Environment in Persons With Knee Osteoarthritis [PhD thesis]. University of Delaware; 2015.
2008	Lin Y-C. Surrogate Based Modeling of Joint Contact Mechanics [PhD thesis]. University of Florida; December 2008.
2017	Schlotman TE. Dynamic Simulation and Analysis of Gait Modification for Treating Knee Osteoarthritis [PhD thesis]. Knoxville, University of Tennessee; May 2017.
2014	Leitch KM. Biomechanical Investigations of Medial Opening Wedge High Tibial Osteotomy: Gait Analysis, Materials Testing and Dynamic Radiography [PhD thesis]. University of Western Ontario; 2014.