Model and measurement studies on stages of prosthetic gait.   

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References

[1]     Aline H Vrieling. Movement and balance control in lower limb amputees. PhD thesis, University of Groningen, 2009.

[2]     A. H. Vrieling, H. G. van Keeken, T. Schoppen, E. Otten, J. P K Halbertsma, A. L. Hof, and K. Postema. Gait initiation in lower limb amputees. Gait Posture, 27(3):423–430, Apr 2008.

[3]     A. H. Vrieling, H. G. van Keeken, T. Schoppen, E. Otten, J. P K Halbertsma, A. L. Hof, and K. Postema. Gait termination in lower limb amputees. Gait Posture, 27(1):82–90, Jan 2008.

[4]     Aline H Vrieling, Helco G van Keeken, Tanneke Schoppen, At L Hof, Bert Otten, Jan P K Halbertsma, and Klaas Postema. Gait adjustments in obstacle crossing, gait initiation and gait termination after a recent lower limb amputation. Clin Rehabil, 23(7):659–671, Jul 2009.

[5]     Helco G van Keeken, Aline H Vrieling, At L Hof, Jan P K Halbertsma, Tanneke Schoppen, Klaas Postema, and Bert Otten. Controlling propulsive forces in gait initiation in transfemoral amputees. J Biomech Eng, 130(1):011002, Feb 2008.

[6]     Helco G van Keeken, Aline H Vrieling, At L Hof, Caroline Curtze, Klaas Postema, and Bert Otten. Controlling horizontal deceleration during gait termination in transfemoral amputees; measurements and simulations. J Biomech Eng, 2012 (submitted).

[7]     Helco G van Keeken, Aline H Vrieling, At L Hof, Caroline Curtze, Klaas Postema, and Bert Otten. Stabilizing moments of force on a prosthetic knee during stance in the first steps after gait initiation. Med Eng Phys, Oct 2011.

[8]     A. H. Vrieling, H. G. van Keeken, T. Schoppen, E. Otten, J. P K Halbertsma, A. L. Hof, and K. Postema. Obstacle crossing in lower limb amputees. Gait Posture, 26(4):587–594, Oct 2007.

[9]     Helco G van Keeken, Aline H Vrieling, At L Hof, Caroline Curtze, Klaas Postema, and Bert Otten. Principles of obstacle avoidance with a transfemoral prosthetic limb. Med Eng Phys, Dec 2011.

[10]     Lauren Kark and Anne Simmons. Patient satisfaction following lower-limb amputation: the role of gait deviation. Prosthet Orthot Int, 35(2):225–233, Jun 2011.

[11]     J.S. Bruner. The act of discovery. Harvard educational review, 1961.

[12]     G. Wulf, N. McNevin, and C. H. Shea. The automaticity of complex motor skill learning as a function of attentional focus. Q J Exp Psychol A, 54(4):1143–1154, Nov 2001.

[13]     Antoinette Domingo and Daniel P. Ferris. Effects of physical guidance on short-term learning of walking on a narrow beam. Gait Posture, 30(4):464–468, Nov 2009.

[14]     N.A. Bernstein. The co-ordination and regulation of movements. Oxford; New York: Pergamon Press, 1967.

[15]     D. A. Winter and S. E. Sienko. Biomechanics of below-knee amputee gait. J Biomech, 21(5): 361–367, 1988.

[16]     Alex Sandra Oliveira de Cerqueira Soares, Edward Yuji Yamaguti, Luis Mochizuki, Alberto Carlos Amadio, and Jlio Cerca Serro. Biomechanical parameters of gait among transtibial amputees: a review. Sao Paulo Med J, 127(5):302–309, Sep 2009.

[17]     Cheriel J Hofstad, Vivian Weerdesteyn, Harmen van der Linde, Bart Nienhuis, Alexander C Geurts, and Jacques Duysens. Evidence for bilaterally delayed and decreased obstacle avoidance responses while walking with a lower limb prosthesis. Clin Neurophysiol, 120(5):1009–1015, May 2009.

[18]     S. E. Nawijn, H. van der Linde, C. H. Emmelot, and C. J. Hofstad. Stump management after trans-tibial amputation: a systematic review. Prosthet Orthot Int, 29(1):13–26, Apr 2005.

[19]     D. KozŠkovŠ, Z. Svoboda, M. Janura, M. Elfmark, and I. NedvědovŠ. Assessment of postural stability in patients with a transtibial amputation with various times of prosthesis use. Acta Universitatis Palackianae Olomucensis. Gymnica, 39(3):51–59, 2010.

[20]     S. M. Jaegers, J. H. Arendzen, and H. J. de Jongh. Prosthetic gait of unilateral transfemoral amputees: a kinematic study. Arch Phys Med Rehabil, 76(8):736–743, Aug 1995.

[21]     At L Hof, Renske M van Bockel, Tanneke Schoppen, and Klaas Postema. Control of lateral balance in walking. experimental findings in normal subjects and above-knee amputees. Gait Posture, 25(2): 250–258, Feb 2007.

[22]     Helco G van Keeken, Aline H Vrieling, At L Hof, Caroline Curtze, Klaas Postema, and Bert Otten. Hang over on a prosthetic leg. In Proceedings of the 12th World Congress of the International Society for Prosthetics and Orthotics., 2007.

[23]     SPRINT. Sprint - smart mobility devices with improved patient prosthesis interaction. Plan for Center of Research Excellence SPRINT, 11 2010.

[24]     Marc J. Nederhand, Edwin H F. Van Asseldonk, Herman van der Kooij, and Hans S. Rietman. Dynamic balance control (dbc) in lower leg amputee subjects; contribution of the regulatory activity of the prosthesis side. Clin Biomech (Bristol, Avon), 27(1):40–45, Jan 2012.

[25]     Nicholas P. Fey, Glenn K. Klute, and Richard R. Neptune. The influence of energy storage and return foot stiffness on walking mechanics and muscle activity in below-knee amputees. Clin Biomech (Bristol, Avon), 26(10):1025–1032, Dec 2011.

[26]     Frank Sup, Huseyin Atakan Varol, and Michael Goldfarb. Upslope walking with a powered knee and ankle prosthesis: initial results with an amputee subject. IEEE Trans Neural Syst Rehabil Eng, 19 (1):71–78, Feb 2011.

[27]     Judith M. Burnfield, Valerie J. Eberly, Joanne K. Gronely, Jacquelin Perry, William Jared Yule, and Sara J. Mulroy. Impact of stance phase microprocessor-controlled knee prosthesis on ramp negotiation and community walking function in k2 level transfemoral amputees. Prosthet Orthot Int, Jan 2012.

[28]     M.J. Highsmith, J.T. Kahle, S.L. Carey, D.J. Lura, R.V. Dubey, and W.S. Quillen. Kinetic differences using a power knee and c-leg while sitting down and standing up: a case report. JPO: Journal of Prosthetics and Orthotics, 22(4):237, 2010.

[29]     Brian Edward Lawson, Huseyin Atakan Varol, and Michael Goldfarb. Standing stability enhancement with an intelligent powered transfemoral prosthesis. IEEE Trans Biomed Eng, 58(9): 2617–2624, Sep 2011.

[30]     B.E. Lawson, H. Atakan Varol, and M. Goldfarb. Standing stability enhancement with an intelligent powered transfemoral prosthesis. IEEE transactions on biomedical engineering, 58(9): 2617–2624, 2011.

[31]     Khaled Maref, Nol Martinet, Constance Grumillier, Slaheddine Ghannouchi, Jean Marie Andr, and Jean Paysant. Kinematics in the terminal swing phase of unilateral transfemoral amputees: microprocessor-controlled versus swing-phase control prosthetic knees. Arch Phys Med Rehabil, 91(6): 919–925, Jun 2010.

[32]     ÷. ‹lger, S. Topuz, and K. Bayramlar. Effects of a hydraulic knee joint on energy consumption, gait and patient satisfaction in trans-femoral amputees. Fizyoterapi Rehabilitasyon, 20(3):169–177, 2009.

[33]     Laetitia Fradet, Merkur Alimusaj, Frank Braatz, and Sebastian I. Wolf. Biomechanical analysis of ramp ambulation of transtibial amputees with an adaptive ankle foot system. Gait Posture, 32(2): 191–198, Jun 2010.

[34]     J. Martin, A. Pollock, and J. Hettinger. Microprocessor lower limb prosthetics: Review of current state of the art. JPO: Journal of Prosthetics and Orthotics, 22(3):183, 2010.

[35]     C. Tudor-Locke and J.D.R. Bassett. How many steps/day are enough?: Preliminary pedometer indices for public health. Sports Medicine, 34(1):1–8, 2004.

[36]     Andrew Stuart McIntosh, Karen T. Beatty, Leanne N. Dwan, and Deborah R. Vickers. Gait dynamics on an inclined walkway. J Biomech, 39(13):2491–2502, 2006.

[37]     D.A. Winter. The Biomechanics and Motor Control of Human Gait: Normal, Elderly and Pathological. University of Waterloo Press, 1991.

[38]     D.S. Childress. Control strategy for upper-limb prostheses. In Engineering in Medicine and Biology Society, 1998. Proceedings of the 20th Annual International Conference of the IEEE, 1998.

[39]     R. Withagen and C.F. Michaels. Transfer of calibration between length and sweet-spot perception by dynamic touch. Ecological Psychology, 19(1):1–19, 2007.

[40]     H.F.J.M. Koopman and E. Otten. Assistive Technology Research Series, chapter Functional demands on intelligence in prosthetics. IOS Press, 2011.

[41]     Huseyin Atakan Varol, Frank Sup, and Michael Goldfarb. Multiclass real-time intent recognition of a powered lower limb prosthesis. IEEE Trans Biomed Eng, 57(3):542–551, Mar 2010.

[42]     F. Zhang, S. D’Andrea, M. Nunnery, S. Kay, and H. Huang. Towards design of a stumble detection system for artificial legs. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 19(5):567–577, 2011.

[43]     John L. Zettel, Carol Y. Scovil, William E. McIlroy, and Brian E. Maki. Gaze behavior governing balance recovery in an unfamiliar and complex environment. Neurosci Lett, 422(3):207–212, Jul 2007.

[44]     C.L. Dym. Principles of Mathematical Modeling. Elsevier Academic Press, 2004.

[45]     Jenny Kent and Andrew Franklyn-Miller. Biomechanical models in the study of lower limb amputee kinematics: a review. Prosthet Orthot Int, 35(2):124–139, Jun 2011.

[46]     E. Carson and C. Cobeli, editors. Modelling Methodology for Physiology and Medicine. Elsevier Academic Press, 2001.

 

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