Comparative Analysis of the Motion and Kinematics of the Knee Joint Using Simulation Techniques

Fernando Valencia, María Prado–Novoa, Fernando Nadal


The World Health Organization reports 30 million people worldwide who need prosthetics and orthotics. Reports by the Consejo Nacional para la Igualdad de Discapacidades de Ecuador (CONADIS) also inform that there are 221,913 people with disabilities. This high demand has been difficult to satisfy, mainly due to the high cost of these devices. Local availability is often limited to a short/small set of size and weight configurations, forcing the patient to settle for a non-optimal option. This paper analyses the kinematics of the knee joint, based on both human gait patterns according to standard ISO 14243-1:2009, ASTM F3141:2017, and experimental results computed by our research group, which has been obtained via 3D videogrammetry techniques integrated with two force platforms. The kinematics obtained from OSSUR2000 and Streifeneder 3A20 knee joint mechanisms have been compared. For this study, SolidWorks motion kinematics and motion simulation have been used with 3D scanning technology to obtain the geometry of these mechanisms. Once analyzed and compared, a knee joint mechanism's basic design presents the flexibility to adapt to different configurations as its main feature. Finite element analysis (FEA) is important to determine the safety factor before testing it on patients. The boundary conditions are considered the parameters of the target population. According to each case, the design is considered a more adjusted safety factor and then the manufacturing step.


Motion; kinematic; knee joint; simulation; disability.

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“Organización Mundial de la Salud,†Discapacidad y Rehabilitación, 2020. .

CONADIS, “Consejo Nacional Para La Igualdad De Discapacidades,†2019. .

X. Liu et al., “Kinetostatic Analysis for Four-Bar Linkage Mechanism of Prosthetic Knee Joint,†J. Mech. Med. Biol., vol. 19, no. 4, pp. 1–12, 2019, doi: 10.1142/S0219519419500180.

N. Sado, H. Shiotani, J. Saeki, and Y. Kawakami, “Positional difference of malleoli-midpoint from three-dimensional geometric centre of rotation of ankle and its effect on ankle joint kinetics,†Gait Posture, vol. 83, pp. 223–229, 2021, doi: 10.1016/j.gaitpost.2020.10.018.

V. J. Harandi et al., “Gait compensatory mechanisms in unilateral transfemoral amputees,†Med. Eng. Phys., vol. 77, no. xxxx, pp. 95–106, 2020, doi: 10.1016/j.medengphy.2019.11.006.

Z. JelaÄić, R. Dedić, and H. Dindo, Prosthetic design and prototype development. 2020.

Y. Zhang, S. Liu, X. Mo, Y. Yang, and W. Ge, “Optimization and Dynamics of Six-bar Mechanism Bionic Knee,†WRC SARA 2019 - World Robot Conf. Symp. Adv. Robot. Autom. 2019, vol. i, pp. 91–96, 2019, doi: 10.1109/WRC-SARA.2019.8931941.

X. H. Wang et al., “A preclinical method for evaluating the kinematics of knee prostheses,†Med. Eng. Phys., vol. 66, pp. 84–90, 2019, doi: 10.1016/j.medengphy.2019.03.003.

Y. Okita, N. Yamasaki, T. Nakamura, T. Kubo, A. Mitsumoto, and T. Akune, “Kinetic differences between level walking and ramp descent in individuals with unilateral transfemoral amputation using a prosthetic knee without a stance control mechanism,†Gait Posture, vol. 63, no. April, pp. 80–85, 2018, doi: 10.1016/j.gaitpost.2018.04.043.

Motion Lab Systems, “Knee Alignment Device,†pp. 2–20, 2011.

S. Day, Using rapid prototyping in prosthetics: Design considerations, Second Edi. Elsevier Ltd., 2019.

O. 2000, “Össur Dynamic Solutions Össur Dynamic Solutions Total Knee ® 2100,†pp. 100–102, 2019.

A. Jochum and V. Seitz, “Streifeneder ortho production GmbH,†2019-06-11, pp. 1–264, 2019.

K. Mâaref, N. Martinet, C. Grumillier, S. Ghannouchi, J. M. André, and J. Paysant, “Kinematics in the Terminal Swing Phase of Unilateral Transfemoral Amputees: Microprocessor-Controlled Versus Swing-Phase Control Prosthetic Knees,†Arch. Phys. Med. Rehabil., vol. 91, no. 6, pp. 919–925, 2010, doi: 10.1016/j.apmr.2010.01.025.

“ Página 1 de 76,†Natl. Aeronaut. Sp. Adm., vol. Volume I, pp. 1–76, 2020.

C. D. Fryar, Q. Gu, C. L. Ogden, and K. M. Flegal, Anthropometric Reference Data for Children and Adults: United States, 2011-2014, no. 39. 2016.

R. Frank, “Prótesis Imbabura Calidad y Accesibilidad para Todos.,†2020.



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