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Items: 1 to 20 of 98

1.

Kinetic energy scavenging in a prosthetic foot using a fluidic system.

Pylatiuk C, Metzger F, Wiegand R, Bretthauer G.

Biomed Tech (Berl). 2013 Aug;58(4):353-8. doi: 10.1515/bmt-2012-0092.

PMID:
23912217
2.

Evaluation of a prosthetic swing-phase controller with electrical power generation.

Andrysek J, Liang T, Steinnagel B.

IEEE Trans Neural Syst Rehabil Eng. 2009 Aug;17(4):390-6. doi: 10.1109/TNSRE.2009.2023292. Epub 2009 Jun 2.

PMID:
19497830
4.

The effect that energy storage and return feet have on the propulsion of the body: a pilot study.

Crimin A, McGarry A, Harris EJ, Solomonidis SE.

Proc Inst Mech Eng H. 2014 Sep;228(9):908-15. doi: 10.1177/0954411914549392. Epub 2014 Aug 28.

PMID:
25172179
5.

Energy storage and return prostheses: does patient perception correlate with biomechanical analysis?

Hafner BJ, Sanders JE, Czerniecki J, Fergason J.

Clin Biomech (Bristol, Avon). 2002 Jun;17(5):325-44. Review.

PMID:
12084537
6.

Biomechanical energy harvesting from human motion: theory, state of the art, design guidelines, and future directions.

Riemer R, Shapiro A.

J Neuroeng Rehabil. 2011 Apr 26;8:22. doi: 10.1186/1743-0003-8-22.

7.

Energy storing property of so-called energy-storing prosthetic feet.

Ehara Y, Beppu M, Nomura S, Kunimi Y, Takahashi S.

Arch Phys Med Rehabil. 1993 Jan;74(1):68-72.

PMID:
8420524
8.

A methodology for studying the effects of various types of prosthetic feet on the biomechanics of trans-femoral amputee gait.

van der Linden ML, Solomonidis SE, Spence WD, Li N, Paul JP.

J Biomech. 1999 Sep;32(9):877-89.

PMID:
10460124
9.

A comparative study of conventional and energy-storing prosthetic feet in high-functioning transfemoral amputees.

Graham LE, Datta D, Heller B, Howitt J, Pros D.

Arch Phys Med Rehabil. 2007 Jun;88(6):801-6.

PMID:
17532907
10.

A gait-powered autologous battery charging system for artificial organs.

Antaki JF, Bertocci GE, Green EC, Nadeem A, Rintoul T, Kormos RL, Griffith BP.

ASAIO J. 1995 Jul-Sep;41(3):M588-95.

PMID:
8573873
11.

The influence of energy storage and return foot stiffness on walking mechanics and muscle activity in below-knee amputees.

Fey NP, Klute GK, Neptune RR.

Clin Biomech (Bristol, Avon). 2011 Dec;26(10):1025-32. doi: 10.1016/j.clinbiomech.2011.06.007. Epub 2011 Jul 20.

PMID:
21777999
12.
13.

Altering prosthetic foot stiffness influences foot and muscle function during below-knee amputee walking: a modeling and simulation analysis.

Fey NP, Klute GK, Neptune RR.

J Biomech. 2013 Feb 22;46(4):637-44. doi: 10.1016/j.jbiomech.2012.11.051. Epub 2013 Jan 10.

PMID:
23312827
14.

Energy transfer mechanisms as a compensatory strategy in below knee amputee runners.

Czerniecki JM, Gitter AJ, Beck JC.

J Biomech. 1996 Jun;29(6):717-22.

PMID:
9147968
15.

Effects of prosthetic foot forefoot flexibility on gait of unilateral transtibial prosthesis users.

Klodd E, Hansen A, Fatone S, Edwards M.

J Rehabil Res Dev. 2010;47(9):899-910.

16.

Joint moment and muscle power output characteristics of below knee amputees during running: the influence of energy storing prosthetic feet.

Czerniecki JM, Gitter A, Munro C.

J Biomech. 1991;24(1):63-75. Erratum in: J Biomech 1991;24(3-4):271-2.

PMID:
2026634
17.

Manufacture of energy storage and return prosthetic feet using selective laser sintering.

South BJ, Fey NP, Bosker G, Neptune RR.

J Biomech Eng. 2010 Jan;132(1):015001. doi: 10.1115/1.4000166.

PMID:
20524754
18.

Bacterial batteries.

Scholz F, Schröder U.

Nat Biotechnol. 2003 Oct;21(10):1151-2. No abstract available.

PMID:
14520395
19.

Mechanical energy and effective foot mass during impact loading of walking and running.

Chi KJ, Schmitt D.

J Biomech. 2005 Jul;38(7):1387-95. Epub 2004 Nov 30.

PMID:
15922749
20.

Energy harvesting for human wearable and implantable bio-sensors.

Mitcheson PD.

Conf Proc IEEE Eng Med Biol Soc. 2010;2010:3432-6. doi: 10.1109/IEMBS.2010.5627952.

PMID:
21097254

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