References
- Amarantini D, Martin L. 2004. A method to combine numerical optimization and EMG data for the estimation of joint moments under dynamic conditions. J Biomech. 37(9):1393–1404.
- Amarantini D, Rao G, Berton E. 2010. A two-step EMG-and-optimization process to estimate muscle force during dynamic movement. J Biomech. 43(9):1827–1830.
- Anderson FC, Pandy MG. 2001. Static and dynamic optimization solutions for gait are practically equivalent. J Biomech. 34(2):153–161.
- Arnold AS, Delp SL. 2004. The role of musculoskeletal models in patient assessment and treatment. In: Gage JR, editors. Treatment of gait problems in cerebral palsy. Cambridge Press. p. 163–177. Available from: http://nmbl.stanford.edu/publications/.
- Arnold EM, Ward SR, Lieber RL, Delp SL. 2010. A model of the lower limb for analysis of human movement. Ann Biomed Eng. 38(2):269–279.
- Buchanan T, Lloyd D, Manal K, Besier T. 2004. Neuromusculoskeletal modeling: estimation of muscle forces and joint moments and movements from measurements of neural command. J Appl Biomech. 20(4):367–395.
- Correa TA, Baker R, Graham HK, Pandy MG. 2011. Accuracy of generic musculoskeletal models in predicting the functional roles of muscles in human gait. J Biomech. 44(11):2096–2105.
- Davis RB, Õunpuu S, Tyburski D, Gage JR. 1991. A gait analysis data collection and reduction technique. Hum Move Sci. 10(5):575–587.
- De Morais Filho MC, Kawamura CM, dos Santos CA, Mattar R. 2012. Outcomes of correction of internal hip rotation in patients with spastic cerebral palsy using proximal femoral osteotomy. Gait Posture. 36(2):201–204.
- 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 Bio-Med Eng. 54(11):1940–1950.
- Erdemir A, McLean S, Herzog W, van den Bogert AJ. 2007. Model-based estimation of muscle forces exerted during movements. Clin Biomech (Bristol, Avon). 22(2):131–154.
- Farina D, Negro F. 2012. Accessing the neural drive to muscle and translation to neurorehabilitation technologies. IEEE Rev Biomed Eng. 5:3–14.
- Hermens HJ, Freriks B, Merletti R, Stegeman D, Blok J, Rau G, Disselhorst-Klug C, Hägg G. 1999. Surface electromyography for the non-invasive assessment of muscles. Available from: www.seniam.org.
- Horsman MDK. 2007. The twente lower extremity model. Doctor of science thesis, University of Twente, Netherland.
- Horsman MD, Koopman HFJM, van der Helm FCT, Prosé LP, Veeger HEJ. 2007. Morphological muscle and joint parameters for musculoskeletal modelling of the lower extremity. Clin Biomech (Bristol, Avon). 22(2):239–247.
- Kaufman KR, An KN, Litchy WJ, Chao EY. 1991a. Physiological prediction of muscle forces II: application to isokinetic exercise. Neuroscience. 40(3):793–804.
- Kaufman KR, An KW, Litchy WJ, Chao EY. 1991b. Physiological prediction of muscle forces I. Theoretical formulation. Neuroscience. 40(3):781–792.
- Lloyd DG, Besier TF. 2003. An EMG-driven musculoskeletal model to estimate muscle forces and knee joint moments in vivo. J Biomech. 36(6):765–776.
- Nocedal J, Wright S. 1999. Numerical optimization. New York: Springer.
- Potvin JR, Norman RW, McGill SM. 1996. Mechanically corrected EMG for the continuous estimation of erector spinae muscle loading during repetitive lifting. Eur J Appl Physiol Occup Physiol. 74(1-2):119–132.
- Praagman M, Chadwick EKJ, van der Helm FCT, Veeger HEJ. 2006. The relationship between two different mechanical cost functions and muscle oxygen consumption. J Biomech. 39(4):758–765.
- Prilutsky BI, Zatsiorsky VM. 2002. Optimization-based models of muscle coordination. Exer Sport Sci Rev. 30(1):1–13.
- Raikova RT, Prilutsky BI. 2001. Sensitivity of predicted muscle forces to parameters of the optimization-based human leg model revealed by analytical and numerical analyses. J Biomech. 34(10):1243–1255.
- Rao G, Amarantini D, Berton E, Favier D. 2006. Influence of body segments’ parameters estimation models on inverse dynamics solutions during gait. J Biomech. 39(8):1531–1536.
- Ravera E, Catalfamo P, Crespo M, Braidot A. 2012. Electromyography as an important parameter for a proper assessment of dynamic muscles strength in gait analysis. Am J Biomed Eng. 2(6):269–277.
- Riemer R, Hsiao-Wecksler ET, Zhang X. 2008. Uncertainties in inverse dynamics solutions: a comprehensive analysis and an application to gait. Gait Posture. 27(4):578–588.
- Thelen DG, Anderson FC. 2006. Using computed muscle control to generate forward dynamic simulations of human walking from experimental data. J Biomech. 39(6):1107–1115.
- Thelen DG, Anderson FC, Delp SL. 2003. Generating dynamic simulations of movement using computed muscle control. J Biomech. 36(3):321–328.
- Van der Krogt MM, Delp SL, Schwartz MH. 2012. How robust is human gait to muscle weakness? Gait Posture. 36(1):113–119.
- Vaughan C, Davis B, O'connor J. 1992. Dynamics of human gait. Champaign, IL: Human Kinetics Publishers.
- Whittle MW. 1996. Clinical gait analysis: a review. Hum Move Sci. 15:369–387.
- Winter DA. 2009. Biomechanics and motor control of human movement. New York: Wiley.
- Wren TaL, Otsuka NY, Bowen RE, Scaduto Aa, Chan LS, Sheng M, Hara R, Kay RM. 2011. Influence of gait analysis on decision-making for lower extremity orthopaedic surgery: Baseline data from a randomized controlled trial. Gait Posture. 34(3):364–369.
- Yamaguchi GT, Zajac FE. 1989. A planar model of the knee joint to characterize the knee extensor mechanism. J Biomech. 22(1):1–10.
- Yeadon M, Morlock M. 1989. The appropriate use of regression equations for the estimation of segmental inertia parameters. J Biomech. 22(617):683–689.
- Zajac F. 1989. Muscle and tendon: properties, models, scaling, and application to biomechanics and motor control. Crit Rev Biomed Eng. 17(4):359–411.
- Zajac FE, Neptune RR, Kautz Sa. 2002. Biomechanics and muscle coordination of human walking. Part I: introduction to concepts, power transfer, dynamics and simulations. Gait & Posture. 16(3):215–232.