Page 285 - Handbook of Biomechatronics

P. 285

278 Georgios A. Bertos and Evangelos G. Papadopoulos

Hagberg, K., Hansson, E., Branemark, R., 2014. Outcome of percutaneous osseointegrated
prostheses for patients with unilateral transfemoral amputation at two-year follow-up.
Arch. Phys. Med. Rehabil. 95 (11), 2120–2127. https://doi.org/10.1016/j.apmr.
2014.07.009.
Hansen, A.H., 1998. Influence of Prosthetic Foot Mechanics on Alignment of Trans-tibial
Prostheses. (Master’s thesis). Northwestern University, Evanston, IL.
Hansen, A.H., Childress, D.S., 2000. Roll-over shapes of the human foot/ankle complex.
In: Enderle, J.D. (Ed.), Proceedings of the 22nd Annual International Conference of
the IEEE Engineering in Medicine and Biology Society, Vols 1–4 (vol. 22). IEEE,
New York, pp. 828–830.
Hansen, A., Starker, F., 2017. Prosthetic foot principles and their influence on gait.
In: M€uller, B., Wolf, S.I. (Eds.), Handbook of Human Motion. Springer International
Publishing AG.
Hansen, A.H., Gard, S.A., Childress, D.S., 2000. The determination of foot/ankle roll-over
shape: clinical and research applications. In: Paper Presented at the IEEE-EMBS/
Shriner’s Hospital Workshop on Pediatric Gait: A New Millenium in Clinical Care
and Motion Analysis Technology, Chicago, IL, July 21st.
Hansen, A.H., Childress, D.S., Miff, S.C., Gard, S.A., Mesplay, K.P., 2004. The human
ankle during walking: implications for design of biomimetic ankle prostheses.
J. Biomech. 37 (10), 1467–1474. https://doi.org/10.1016/j.jbiomech.2004.01.017.
Hargrove, L.J., Simon, A.M., Young, A.J., Lipschutz, R.D., Finucane, S.B., Smith, D.G.,
Kuiken, T.A., 2013. Robotic leg control with EMG decoding in an amputee with
nerve transfers. N. Engl. J. Med. 369 (13), 1237–1242. https://doi.org/10.1056/
NEJMoa1300126.
Hernigou, P., 2013. Ambroise pare IV: the early history of artificial limbs (from robotic to
prostheses). Int. Orthop. 37 (6), 1195–1197. https://doi.org/10.1007/s00264-013-
1884-7.
Herr, H., 2006. (Producer). http://www.ai.mit.edu/people/hherr/Research.html.
Herr, H.M., Grabowski, A.M., 2012. Bionic ankle-foot prosthesis normalizes walking gait
for persons with leg amputation. Proc. Biol. Sci. 279 (1728), 457–464. https://doi.org/
10.1098/rspb.2011.1194.
Herr, H., Whiteley, G., Childress, D., 2003. Cyborg technology—biomimetic orthotic and
prosthetic technology. In: Bar-Cohen, Y., Breazeal, C. (Eds.), Biologically Inspired
Intelligent Robots. SPIE Press, pp. 103–144.
Hugh M. Herr, Samuel K. Au, Peter Dilworth, & Daniel Joseph Paluska. (2007). USA Patent
No. US2007/0043449 A1. USPTO.
Inman, V.T., Ralston, R.J., Todd, F., 1981. Human Walking. Williams & Wilkins,
Baltimore, MD.
Inman, V.T., Ralston, H.J., Todd, F., 1994. Human locomotion. In: Rose, J., Gamble, J.G.
(Eds.), Human Walking. Williams & Wilkins, Baltimore, MD, pp. 1–22 (Chapter 1).
Kuiken, T.A., Barlow, A.K., Hargrove, L.J., Dumanian, G.A., 2017a. Targeted muscle
Reinnervation for the upper and lower extremity. Tech. Orthop. 32 (2), 109–116.
https://doi.org/10.1097/Bto.0000000000000194.
Kuiken, T.A., Butler, B.A., Sharkey, T., Ivy, A.D., Li, D., Peabody, T.D., 2017b. Novel
intramedullary device for lengthening transfemoral residual limbs. J. Orthop. Surg.
Res. 1253. https://doi.org/10.1186/s13018-017-0553-8.
Kulkarni, J., Adams, J., Thomas, E., Silman, A., 1998. Association between amputation,
arthritis and osteopenia in British male war veterans with major lower limb amputations.
Clin. Rehabil. 12 (4), 348–353.
Kuo, A.D., 1999. Stabilization of lateral motion in passive dynamic walking. Int. J. Robot.
Res. 18 (9), 917–930. https://doi.org/10.1177/02783649922066655.

280 281 282 283 284 285 286 287 288 289 290