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Computer Methods in Biomechanics and Biomedical Engineering Volume 25, 2022 - Issue 5
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Articles

Modelling the complexity of the foot and ankle during human locomotion: the development and validation of a multi-segment foot model using biplanar videoradiography

Jayishni N. Maharaja Griffith Centre of Biomedical and Rehabilitation Engineering, Gold Coast, AustraliaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-4599-8439View further author information
ORCID Icon,
Michael J. Rainbowb Department of Mechanical and Materials Engineering, Queen's University, Kingston, CanadaView further author information
,
Andrew G. Cresswellc School of Human Movement and Nutrition Sciences, University of Queensland, Brisbane, AustraliaView further author information
,
Sarah Kesslerd Department of Human Evolutionary Biology, Harvard University, Cambridge, MA, USAView further author information
,
Nicolai Konowe Department of Biological Sciences, University of Massachusetts, Lowell, MA, USAView further author information
,
Dominic Gehringf Institute of Sports and Sport Science, University of Freiburg, Freiburg, GermanyView further author information
&
Glen A. Lichtwarkc School of Human Movement and Nutrition Sciences, University of Queensland, Brisbane, AustraliaView further author information
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Pages 554-565 | Received 01 Mar 2021, Accepted 12 Aug 2021, Published online: 26 Oct 2021

References

  • Brainerd EL, Baier DB, Gatesy SM, Hedrick TL, Metzger KA, Gilbert SL, Crisco JJ. 2010. X-ray reconstruction of moving morphology (XROMM): precision, accuracy and applications in comparative biomechanics research. J Exp Zool A Ecol Genet Physiol. 313(5):262–279.
  • Bruckner J. 1987. Variations in the. Human Subtalar Joint. 8(10):6.
  • Caravaggi P, Benedetti MG, Berti L, Leardini A. 2011. Repeatability of a multi-segment foot protocol in adult subjects. Gait Posture. 33(1):133–135.
  • Caravaggi P, Matias AB, Taddei UT, Ortolani M, Leardini A, Sacco ICN. 2019. Reliability of medial–longitudinal–arch measures for skin-markers based kinematic analysis. J Biomech. 88:180–185.
  • Delp SL, Anderson FC, Arnold AS, Loan P, Habib A, John CT, Guendelman E, Thelen DG. 2007. OpenSim: open-source software to create and analyze dynamic simulations of movement. IEEE Trans Biomed Eng. 54(11):1940–1950.
  • Farris DJ, Hicks JL, Delp SL, Sawicki GS. 2014. Musculoskeletal modelling deconstructs the paradoxical effects of elastic ankle exoskeletons on plantar-flexor mechanics and energetics during hopping. J Exp Biol. 217(Pt 22):4018–4028.
  • Fernández MPM, Hoxha D, Chan O, Mordecai S, Blunn GW, Tozzi G, Goldberg A. 2020. Centre of rotation of the human subtalar joint using weight-bearing clinical computed tomography. Sci Rep. 10(1):1035.
  • Grant TM, Diamond LE, Pizzolato C, Killen BA, Devaprakash D, Kelly L, Maharaj JN, Saxby DJ. 2020. Development and validation of statistical shape models of the primary functional bone segments of the foot. PeerJ. 8:e8397.
  • Hicks JH. 1953. The mechanics of the foot. I. The joints. J Anat. 87(4):345–357.
  • Hicks JL, Uchida TK, Seth A, Rajagopal A, Delp SL. 2015. Is my model good enough? Best practices for verification and validation of musculoskeletal models and simulations of movement. J Biomech Eng. 137(2):020905.
  • Isman RE, Inman VT. 1969. Anthropometric studies of the human foot and ankle. Bull Prosthet Res. 11:97–129.
  • Kainz H, Modenese L, Lloyd DG, Maine S, Walsh HPJ, Carty CP. 2016. Joint kinematic calculation based on clinical direct kinematic versus inverse kinematic gait models. J Biomech. 49(9):1658–1669.
  • Kessler SE, Rainbow MJ, Lichtwark GA, Cresswell AG, D'Andrea SE, Konow N, Kelly LA. 2019. A direct comparison of biplanar videoradiography and optical motion capture for foot and ankle kinematics. Front Bioeng Biotechnol. 7:199.
  • Leardini A, Benedetti MG, Berti L, Bettinelli D, Nativo R, Giannini S. 2007. Rear-foot, mid-foot and fore-foot motion during the stance phase of gait. Gait Posture. 25(3):453–462.
  • Leardini A, Chiari L, Croce UD, Cappozzo A. 2005. Human movement analysis using stereophotogrammetry. Part 3. Soft tissue artifact assessment and compensation. Gait Posture. 21(2):212–225.
  • Lewis GS, Kirby KA, Piazza SJ. 2007. Determination of subtalar joint axis location by restriction of talocrural joint motion. Gait Posture. 25(1):63–69.
  • Lu TW, O'Connor JJ. 1999. Bone position estimation from skin marker co-ordinates using global optimisation with joint constraints. J Biomech. 32(2):129–134.
  • Lundgren P, Nester C, Liu A, Arndt A, Jones R, Stacoff A, Wolf P, Lundberg A. 2008. Invasive in vivo measurement of rear-, mid- and forefoot motion during walking. Gait Posture. 28(1):93–100.
  • MacWilliams BA, Cowley M, Nicholson DE. 2003. Foot kinematics and kinetics during adolescent gait. Gait Posture. 17(3):214–224.
  • Maharaj JN, Kessler S, Rainbow MJ, D'Andrea SE, Konow N, Kelly LA, Lichtwark GA. 2020. The reliability of foot and ankle bone and joint kinematics measured with biplanar videoradiography and manual scientific rotoscoping. Front Bioeng Biotechnol. 8:106.
  • Maharaj JN, Cresswell AG, Lichtwark GA. 2016. The Mechanical Function of the Tibialis Posterior Muscle and Its Tendon during Locomotion. J Biomech. 49(14):3238–3243.
  • Malaquias TM, Silveira C, Aerts W, Groote F, Dereymaeker G, Sloten JV, Jonkers I. 2017. Extended Foot-Ankle Musculoskeletal Models for Application in Movement Analysis. Comput Methods Biomech Biomed Eng Imaging 20(2):153–159.
  • Miranda DL, Rainbow MJ, Crisco JJ, Fleming BC. 2013. Kinematic differences between optical motion capture and biplanar videoradiography during a jump–cut maneuver. J Biomech. 46(3):567–573.
  • Nester C, Jones RK, Liu A, Howard D, Lundberg A, Arndt A, Lundgren P, Stacoff A, Wolf P. 2007. Foot kinematics during walking measured using bone and surface mounted markers. J Biomech. 40(15):3412–3423.
  • Nester CJ, Findlow A, Bowker P. 2001. Scientific approach to the axis of rotation at the midtarsal joint. J Am Podiatr Med Assoc. 91(2):68–73.
  • Oosterwaal M, Carbes S, Telfer S, Woodburn J, Tørholm S, Al-Munajjed AA, van Rhijn L, Meijer K. 2016. The Glasgow–Maastricht foot model, evaluation of a 26 segment kinematic model of the foot. J Foot Ankle Res. 9(1):19.
  • van den Bogert AJA, Smith G, Nigg B. 1994. In vivo determination of the anatomical axes of the ankle joint complex: an optimization approach. J Biomech. 27:1477–1488.
  • Wang B, Roach KE, Kapron AL, Fiorentino NM, Saltzman CL, Singer M, Anderson AE. 2015. Accuracy and feasibility of high-speed dual fluoroscopy and model-based tracking to measure in vivo ankle arthrokinematics. Gait Posture. 41(4):888–893.

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