Model and measurement studies on stages of prosthetic gait.   

  ProstheticLimb.info


 


References

[1]     OA van Keeken, M. Dickey-Collas, SBM Kraak, JJ Poos, and MA Pastoors. The use of simulations of discarding to investigate the potential impact of bias, due to growth, on the stock assessment of north sea plaice (pleuronectes platessa). ICES Document CM, 10:17, 2003.

[2]     G.J. van Keeken. De ontwikkeling van de persioenregeling en de financiering van het pensioenfonds voor de zorg en welzijn tot en met 2007. Pensioenfonds Zorg en Welzijn, 2008.

[3]     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.

[4]     F. Prince, D. A. Winter, G. Sjonnensen, C. Powell, and R. K. Wheeldon. Mechanical efficiency during gait of adults with transtibial amputation: a pilot study comparing the sach, seattle, and golden-ankle prosthetic feet. J Rehabil Res Dev, 35(2):177–185, Jun 1998.

[5]     L. Torburn, J. Perry, E. Auuappa, and Shanfield S.L. Belowknee amputee gait with dynamic elastic response prosthetic feet: a pilot study. J Rehabil Res Dev, 27(4)(2):369384, 1990.

[6]     H. Sadeghi, P. Allard, and P. M. Duhaime. Muscle power compensatory mechanisms in below-knee amputee gait. Am J Phys Med Rehabil, 80(1):25–32, Jan 2001.

[7]     Thomas Schmalz, Siegmar Blumentritt, and Rolf Jarasch. Energy expenditure and biomechanical characteristics of lower limb amputee gait: the influence of prosthetic alignment and different prosthetic components. Gait Posture, 16(3):255–263, Dec 2002.

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

[9]     D. Datta, R. Ariyaratnam, and S. Hilton. Timed walking testan all-embracing outcome measure for lower-limb amputees? Clinical rehabilitation, 10(3):227–232, 1996.

[10]     T. Schoppen, A. Boonstra, J. W. Groothoff, J. de Vries, L. N. Geken, and W. H. Eisma. The timed ”up and go” test: reliability and validity in persons with unilateral lower limb amputation. Arch Phys Med Rehabil, 80(7):825–828, Jul 1999.

[11]     G. M. Rommers, L. D. Vos, J. W. Groothoff, and W. H. Eisma. Mobility of people with lower limb amputations: scales and questionnaires: a review. Clin Rehabil, 15(1):92–102, Feb 2001.

[12]     Brian J. Hafner, Laura L. Willingham, Noelle C. Buell, Katheryn J. Allyn, and Douglas G. Smith. Evaluation of function, performance, and preference as transfemoral amputees transition from mechanical to microprocessor control of the prosthetic knee. Arch Phys Med Rehabil, 88(2):207–217, Feb 2007.

[13]     P.F. Pasquina and K.F. Fitzpatrick. The walter reed experience: current issues in the care of the traumatic amputee. Journal of Prosthetics and Orthotics, 18(6):P119, 2006.

[14]     J. M. Czerniecki, A. J. Gitter, and J. C. Beck. Energy transfer mechanisms as a compensatory strategy in below knee amputee runners. J Biomech, 29(6):717–722, Jun 1996.

[15]     B. Burkett, J. Smeathers, and T. Barker. Optimising the trans-femoral prosthetic alignment for running, by lowering the knee joint. Prosthet Orthot Int, 25(3):210–219, Dec 2001.

[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]     Hans Vaihinger. Die Philosophie des Als Ob - System der theoretischen, praktischen und religisen Fiktionen der Menschheit - Auf Grund eines idealistischen Positivismus - Mit einem Anhang ber Kant und Nietzsche. pg. 217, 1911.

[18]     M. Martin, M.i Shinberg, M. Kuchibhatla, L. Ray, J. J. Carollo, and M. L Schenkman. Gait initiation in community-dwelling adults with parkinson disease: comparison with older and younger adults without the disease. Phys Ther, 82(6):566–577, Jun 2002.

[19]     S.E. Halliday, D.A. Winter, J.S. Frank, A.E. Patla, and F. Prince. The initiation of gait in young, elderly, and parkinson’s disease subjects. Gait Posture, 8(1):8–14, Aug 1998.

[20]     H. A. Chang, T. Y. Chuang, S. J. Lee, S. F. Liao, H. C. Lee, Y. H. Shih, and H. Cheng. Temporal differences in relative phasing of gait initiation and first step length in patients with cervical and lumbosacral spinal cord injuries. Spinal Cord, 42(5):281–289, May 2004.

[21]     C. J. Hass, R. J. Gregor, D. .E Waddell, A. Oliver, D. W. Smith, R. P. Fleming, and S. L. Wolf. The influence of tai chi training on the center of pressure trajectory during gait initiation in older adults. Arch Phys Med Rehabil, 85(10):1593–1598, Oct 2004.

[22]     S. A. Rossi, W. Doyle, and H. B. Skinner. Gait initiation of persons with below-knee amputation: the characterization and comparison of force profiles. J Rehabil Res Dev, 32(2):120–127, May 1995.

[23]     M. Nissan. The initiation of gait in lower limb amputees: some related data. J Rehabil Res Dev, 28(2):1–12, 1991.

[24]     M. R. Meier, J. Desrosiers, P. Bourassa, and J. Blaszczyk. Effect of type ii diabetic peripheral neuropathy on gait termination in the elderly. Diabetologia, 44(5):585–592, May 2001.

[25]     Craig D Tokuno, David J Sanderson, J. Timothy Inglis, and Romeo Chua. Postural and movement adaptations by individuals with a unilateral below-knee amputation during gait initiation. Gait Posture, 18(3):158–169, Dec 2003.

[26]     A. F. Polcyn, L. A. Lipsitz, D. C. Kerrigan, and J. J. Collins. Age-related changes in the initiation of gait: degradation of central mechanisms for momentum generation. Arch Phys Med Rehabil, 79(12): 1582–1589, Dec 1998.

[27]     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.

[28]     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.

[29]     D. Brunt, D. W. Vander Linden, and A. L. Behrman. The relation between limb loading and control parameters of gait initiation in persons with stroke. Arch Phys Med Rehabil, 76(7):627–634, Jul 1995.

[30]     D. A. Winter. Overall principle of lower limb support during stance phase of gait. J Biomech, 13 (11):923–927, 1980.

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

[32]     C. M. Said, P. A. Goldie, A. E. Patla, and W. A. Sparrow. Effect of stroke on step characteristics of obstacle crossing. Arch Phys Med Rehabil, 82(12):1712–1719, Dec 2001.

[33]     L. S. Chou and L. F. Draganich. Stepping over an obstacle increases the motions and moments of the joints of the trailing limb in young adults. J Biomech, 30(4):331–337, Apr 1997.

[34]     L. S. Chou, Kenton R Kaufman, Michael E Hahn, and Robert H Brey. Medio-lateral motion of the center of mass during obstacle crossing distinguishes elderly individuals with imbalance. Gait Posture, 18(3):125–133, Dec 2003.

[35]     L. S. Chou and L. F. Draganich. Increasing obstacle height and decreasing toe-obstacle distance affect the joint moments of the stance limb differently when stepping over an obstacle. Gait Posture, 8 (3):186–204, Dec 1998.

[36]     B. J. McFadyen and H. Carnahan. Anticipatory locomotor adjustments for accommodating versus avoiding level changes in humans. Exp Brain Res, 114(3):500–506, May 1997.

[37]     A. Patla, S. Rietdyk, C. Martin, and S. Prentice. Locomotor patterns of the leading and the trailing limbs as solid and fragile obstacles are stepped over: Some insights into the role of vision during locomotion. J Mot Behav, 28(1):35–47, Mar 1996.

[38]     L. S. Chou, K. R. Kaufman, R. H. Brey, and L. F. Draganich. Motion of the whole body’s center of mass when stepping over obstacles of different heights. Gait Posture, 13(1):17–26, Feb 2001.

[39]     J. M. Byrne and S. D. Prentice. Swing phase kinetics and kinematics of knee replacement patients during obstacle avoidance. Gait Posture, 18(1):95–104, Aug 2003.

[40]     B. J. McFadyen and D. A. Winter. Anticipatory locomotor adjustments during obstructed human walking. Neurosci Res Comm, 9(3):37–44, May 1991.

[41]     S. W. Hill, A. E. Patla, M. G. Ishac, A. L. Adkin, T. J. Supan, and D. G. Barth. Kinematic patterns of participants with a below-knee prosthesis stepping over obstacles of various heights during locomotion. Gait Posture, 6:186–192, 1997.

[42]     S. W. Hill, A. E. Patla, M. G. Ishac, A. L. Adkin, T. J. Supan, and D. G. Barth. Altered kinetic strategy for the control of swing limb elevation over obstacles in unilateral below-knee amputee gait. J Biomech, 32(5):545–549, May 1999.

[43]     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.

[44]     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.

[45]     P. Crenna, D. M. Cuong, and Y. Brénière. Motor programmes for the termination of gait in humans: organisation and velocity-dependent adaptation. J Physiol, 537(Pt 3):1059–1072, Dec 2001.

[46]     O. Tirosh and W. A. Sparrow. Age and walking speed effects on muscle recruitment in gait termination. Gait Posture, 21(3):279–288, Apr 2005.

[47]     M. Bishop, D. Brunt, N. Pathare, and B. Patel. The effect of velocity on the strategies used during gait termination. Gait Posture, 20(2):134–139, Oct 2004.

[48]     R. B. Stein and K. Hase. Stopping and turning during human walking. Prog Brain Res, 123: 445–453, 1999.

[49]     K. J. Kim, E. Uchiyama, H. B. Kitaoka, and K. N. An. An in vitro study of individual ankle muscle actions on the center of pressure. Gait Posture, 17(2):125–131, Apr 2003.

[50]     A. H. Hansen, D. S. Childress, and E. H. Knox. Prosthetic foot roll-over shapes with implications for alignment of trans-tibial prostheses. Prosthet Orthot Int, 24(3):205–215, Dec 2000.

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

[52]     E. D. Lemaire, D. Nielen, and M. A. Paquin. Gait evaluation of a transfemoral prosthetic simulator. Arch Phys Med Rehabil, 81(6):840–843, Jun 2000.

[53]     C.L. Dym and E.S. Ivey. Principles of Mathematical Modeling. Elsevier Academic Press, 1980.

 

Back to top


www.vanKeeken.org
www.ProstheticLimb.info