An Exotendon Prosthesis to Improve Walking for Lower Limb Amputees

Award Information
Agency:
Department of Health and Human Services
Branch
n/a
Amount:
$254,432.00
Award Year:
2011
Program:
STTR
Phase:
Phase I
Contract:
1R41MD007138-01A1
Award Id:
n/a
Agency Tracking Number:
R41MD007138
Solicitation Year:
2011
Solicitation Topic Code:
NIMHD
Solicitation Number:
PA10-051
Small Business Information
CORPORATION, SEATTLE, WA, 98103-
Hubzone Owned:
N
Minority Owned:
N
Woman Owned:
N
Duns:
807090043
Principal Investigator:
BRIAN GLAISTER
(414) 807-7399
brian@eetechcorp.com
Business Contact:
BRIAN GLAISTER
(414) 807-7399
brian@eetechcorp.com
Research Institute:
CLEVELAND CLINIC LERNER COLLEGE OF MEDICINE

9500 Euclid Avenue
JJN5-01
CLEVELAND, OH, 44195-
() -
Nonprofit college or university
Abstract
DESCRIPTION (provided by applicant): The physical fitness and strength requirements for lower limb amputee gait are so high that thirty-seven percent of amputees are unable to walk with a prosthesis and another twenty-three percent are able to ambulate indoors only. Recent advances in prosthetic feet and knees have been unable to reduce these requirements, and external assistive devices like powered exoskeletons are too expensive and too power-intensive to be considered feasible solutions for use with thispopulation. Passive assistive devices may be a feasible alternative to powered exoskeletons to improve mobility for lower limb amputees. The goal of this project is to create such a device by utilizing exotendon technology to create a passive prosthesis to reduce metabolic cost and muscular fatigue for lower limb amputees. Exotendons are passive elastic structures mounted in parallel to a limb that stretch across pulleys placed at the joint centers. Borrowing from horse anatomy where short muscles interactwith long tendons that stretch across multiple joints, exotendons can store energy and return it at a different time or even to a different joint when positive power is needed. Additionally, they are able to contribute to muscle force production without adding to the metabolic cost. In this Phase I work, we propose to develop an exotendon prosthesis for transfemoral amputees through three Specific Aims. In Specific Aim 1, we will determine optimum design parameters through biomechanical modeling. In Specific Aim 2, we will design and fabricate an exotendon prosthesis. And in Specific Aim 3, we will conduct a pilot study with transfemoral amputee subjects to investigate the performance of the exotendon prosthesis. Future work in Phase II will focus on refining and expanding the exotendon prosthesis through the following aims. In Specific Aim 1 of Phase II, we will model the use of exotendons with transtibial amputees and develop a transtibial exotendon prosthesis. In Specific Aim 2 of Phase II, we will further develop the exotendon prosthesis design to provide even greater kinetic and metabolic benefits through the use of non-uniform radii pulleys for both transfemoral and transtibial amputees. In Specific Aim 3 of Phase II, we will evaluate the performance ofthe exotendon prostheses in a trial with a large enough sample size to permit statistical comparisons. Specifically, we will perform laboratory experiments to determine the reductions in joint moments and metabolic cost with the use of exotendons and we will also perform field experiments to investigate the ability of the exotendon prosthesis to improve activity level. Lastly, in Specific Aim 4 of Phase II, we will perform a case series to evaluate the ability of the exotendon prosthesis to facilitate walking for amputees with limited abilities to ambulate. PUBLIC HEALTH RELEVANCE: Despite recent achievements in prosthetic engineering, very few lower limb amputees are able to maintain active lifestyles following limb loss. This project seeks to improvepublic health by creating technology that enables many more amputees to have increased mobility and, consequently, live healthier lifestyles.

* information listed above is at the time of submission.

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