This article and any supplementary material should be cited as follows: Wezenberg D, Cutti AG, Bruno A, Houdijk H. Differentiation between solid- ankle.

Slides:

Advertisements

Similar presentations

This article and any supplementary material should be cited as follows: Paquet N, Taillon-Hobson A, Lajoie Y. Fukuda and Babinski-Weil tests: Within-subject.

Advertisements

This article and any supplementary material should be cited as follows: Cameron MH, Huisinga J. Objective and subjective measures reflect different aspects.

This article and any supplementary material should be cited as follows: Kannenberg A, Zacharias B, Pröbsting E. Benefits of microprocessor- controlled.

This article and any supplementary material should be cited as follows: Tang KT, Spence WD, Maxwell D, Stansfield BW. Validity of method to quantify transtibial.

This article and any supplementary material should be cited as follows: Sauret C, Bascou J, de Saint Rémy N, Pillet H, Vaslin P, Lavast F. Assessment of.

This article and any supplementary material should be cited as follows: Tenenbaum S, Shabshin N, Levy A, Herman A, Gefen A. Effects of foot posture and.

This article and any supplementary material should be cited as follows: Wilson RH, McArdle R. Characteristics of audiometric 4,000 Hz notch (744,553 veterans)

This article and any supplementary material should be cited as follows: Eicholtz MR, Caspall JJ, Dao PV, Sprigle S, Ferri A. Test method for empirically.

This article and any supplementary material should be cited as follows: Johnson L, De Asha AR, Munjal R, Kulkarni J, Buckley JG. Toe clearance when walking.

This article and any supplementary material should be cited as follows: Chang SR, Kobetic R, Triolo RJ. Understanding stand-to-sit maneuver: Implications.

This article and any supplementary material should be cited as follows: Meier MR, Tucker KA, Hansen AH. Development of inexpensive prosthetic feet for.

This article and any supplementary material should be cited as follows: Smit G, Plettenburg DH, van der Helm FCT. Design and evaluation of two different.

This article and any supplementary material should be cited as follows: Caspall JJ, Seligsohn E, Dao PV, Sprigle S. Changes in inertia and effect on turning.

This article and any supplementary material should be cited as follows: Wininger M, Crane B. Effect of interpolation on parameters extracted from seating.

This article and any supplementary material should be cited as follows: Makowski P, Knutson J, Chae J, Crago P. Interaction of poststroke voluntary effort.

This article and any supplementary material should be cited as follows: Duclos C, Kemlin C, Lazert D, Gagnon D, Dyer JO, Forget R. Complex muscle vibration.

This article and any supplementary material should be cited as follows: Larson RD, McCully KK, Larson DJ, Pryor WM, White LJ. Lower-limb performance disparities:

This article and any supplementary material should be cited as follows: Gailey RS, Scoville C, Gaunaurd IA, Raya MA, Linberg AA, Stoneman PD, Campbell.

This article and any supplementary material should be cited as follows: Raya MA, Gailey RS, Gaunaurd IA, Ganyard H, Knapp-Wood J, McDonough K, Palmisano.

This article and any supplementary material should be cited as follows: Gerschutz MJ, Haynes ML, Nixon D, Colvin JM. Strength evaluation of prosthetic.

This article and any supplementary material should be cited as follows: Smit G, Bongers RM, Van der Sluis CK, Plettenburg DH. Efficiency of voluntary opening.

This article and any supplementary material should be cited as follows: Safari MR, Rowe P, Buis A. Examination of anticipated chemical shift and shape.

This article and any supplementary material should be cited as follows: Tsai J, Rosenheck RA. Use of group treatment among case managers in Department.

This article and any supplementary material should be cited as follows: Wolf EJ, Everding VQ, Linberg AL, Schnall BL, Czerniecki JM, Gambel JM. Assessment.

This article and any supplementary material should be cited as follows: Hurley RK Jr, Rivera JC, Wenke JC, Krueger CA. Identifying obstacles to return.

This article and any supplementary material should be cited as follows: Webster JB, Hakimi KN, Williams RM, Turner AP, Norvell DC, Czerniecki JM. Prosthetic.

This article and any supplementary material should be cited as follows: Morgan P, Embry A, Perry L, Holthaus K, Gregory CM. Feasibility of lower- limb.

This article and any supplementary material should be cited as follows: Belter JT, Segil JL, Dollar AM, Weir RF. Mechanical design and performance specifications.

This article and any supplementary material should be cited as follows: Fenuta AM, Hicks AL. Muscle activation during body weight-supported locomotion.

This article and any supplementary material should be cited as follows: Littman AJ, Boyko EJ, Thompson ML, Haselkorn JK, Sangeorzan BJ, Arterburn DE. Physical.

This article and any supplementary material should be cited as follows: Schoeman M, Diss CE, Strike SC. Asymmetrical loading demands associated with vertical.

This article and any supplementary material should be cited as follows: Raja B, Neptune RR, Kautz SA. Quantifiable patterns of limb loading and unloading.

This article and any supplementary material should be cited as follows: Wu TM, Chen DZ. Biomechanical study of upper-limb exoskeleton for resistance training.

This article and any supplementary material should be cited as follows: Annette Pantall A, Ewins D. Muscle activity during stance phase of walking: Comparison.

This article and any supplementary material should be cited as follows: Komolafe O, Wood S, Caldwell R, Hansen A, Fatone S. Methods for characterization.

This article and any supplementary material should be cited as follows: Guidali M, Keller U, Klamroth-Marganska V, Nef T, Riener R. Estimating the patient’s.

This article and any supplementary material should be cited as follows: Ferguson-Pell M, Ferguson-Pell G, Mohammadi F, Call E. Applying ISO Standard.

This article and any supplementary material should be cited as follows: Zhang M, Davies TC, Zhang Y, Xie S. Reviewing effectiveness of ankle assessment.

This article and any supplementary material should be cited as follows: Fatone S, Dillon M, Stine R, Tillges R. Coronal plane socket stability during gait.

This article and any supplementary material should be cited as follows: Khattab A, Docherty S, Bagust J, Willington R, Thomas P, Amar K. Subjective visual.

This article and any supplementary material should be cited as follows: Alcaide-Aguirre RE, Morgenroth DC, Ferris DP. Motor control and learning with lower-limb.

This article and any supplementary material should be cited as follows: van Nunen MP, Gerrits KH, de Haan A, Janssen TW. Exercise intensity of robot-assisted.

This article and any supplementary material should be cited as follows: Hansen A, Nickel E, Medvec J, Brielmaier S, Pike A, Weber M. Effects of a flat.

This article and any supplementary material should be cited as follows: Hafner BJ, Sanders JE. Considerations for development of sensing and monitoring.

This article and any supplementary material should be cited as follows: Redfield MT, Cagle JC, Hafner BJ, Sanders JE. Classifying prosthetic use via accelerometry.

This article and any supplementary material should be cited as follows: Chin T, Kuroda R, Akisue T, Iguchi T, Kurosaka M. Energy consumption during prosthetic.

This article and any supplementary material should be cited as follows: Wilkenfeld AJ. Review of electrical stimulation, botulinum toxin, and their combination.

This article and any supplementary material should be cited as follows: Lui J, MacGillivray MK, Sheel AW, Jeyasurya J, Sadeghi M, Sawatzky BJ. Mechanical.

This article and any supplementary material should be cited as follows: Gagnon DH, Babineau A, Champagne A, Desroches G, Aissaoui R. Pushrim biomechanical.

This article and any supplementary material should be cited as follows: Koester HH, Simpson RC. Method for enhancing text entry rate with single-switch.

This article and any supplementary material should be cited as follows: Berning K, Cohick S, Johnson R, Miller LA, Sensinger JW. Comparison of body-powered.

This article and any supplementary material should be cited as follows: Maitre J, Jully JL, Gasnier Y, Paillard T. Chronic physical activity preserves.

This article and any supplementary material should be cited as follows: Troche MS, Rosenbek JC, Okun MS, Sapienza CM. Detraining outcomes with expiratory.

This article and any supplementary material should be cited as follows: Segil JL, Controzzi M, Weir RF, Cipriani C. Comparative study of state-of- the-art.

This article and any supplementary material should be cited as follows: Ficanha EM, Rastgaar M, Kaufman KR. Ankle mechanics during sidestep cutting implicates.

This article and any supplementary material should be cited as follows: Carter WE, Darko IA, Chandan P, Pai AB. Colitis after polytrauma. J Rehabil Res.

This article and any supplementary material should be cited as follows: Linberg AA, Roach KE, Campbell SM, Stoneman PD, Gaunaurd IA, Raya MA, Gomez-Orozco.

This article and any supplementary material should be cited as follows: Lee WC, Lee CK, Leung AK, Hutchins SW. Is it important to position foot in subtalar.

This article and any supplementary material should be cited as follows: Sensinger JW, Lipsey J, Thomas A, Turner K. Design and evaluation of voluntary.

This article and any supplementary material should be cited as follows: Sloan DM, Bovin MJ, Schnurr PP. Review of group treatment of PTSD. J Rehabil Res.

This article and any supplementary material should be cited as follows: Senra H, Vieira CR, Nicholls EG, Leal I. Depression and experience of vision loss.

This article and any supplementary material should be cited as follows: Smit G, Plettenburg DH. Comparison of mechanical properties of silicone and PVC.

This article and any supplementary material should be cited as follows: Fischer TZ, Waxman SG. Extraterritorial temperature pain threshold abnormalities.

This article and any supplementary material should be cited as follows: Kahle JT, Highsmith MJ. Transfemoral sockets with vacuum-assisted suspension comparison.

This article and any supplementary material should be cited as follows: Johnson WB, Fatone S, Gard SA. Modeling effects of sagittal-plane hip joint stiffness.

This article and any supplementary material should be cited as follows: Major MJ, Johnson WB, Gard SA. Interrater reliability of mechanical tests for functional.

This article and any supplementary material should be cited as follows: Wessles KK, Brown JL, Ebersole KT, Sosnoff JJ. Sex, shoulder pain, and range of.

This article and any supplementary material should be cited as follows: Boone DA, Kobayashi T, Chou TG, Arabian AK, Coleman KL, Orendurff MS, Zhang M.

This article and any supplementary material should be cited as follows: Ward CL, Suh Y, Lane AD, Yan H, Ranadive SM, Fernhall, B, Motl RW, Evans EM. Body.

This article and any supplementary material should be cited as follows: Koenig AL, Kupper AE, Skidmore JR, Murphy KM. Biopsychosocial functioning and pain.

Presentation transcript:

This article and any supplementary material should be cited as follows: Wezenberg D, Cutti AG, Bruno A, Houdijk H. Differentiation between solid- ankle cushioned heel and energy storage and return prosthetic foot based on step-to-step transition cost. J Rehabil Res Dev. 2014;51(10):1579–90. Slideshow Project DOI: /JRRD JSP Differentiation between solid-ankle cushioned heel and energy storage and return prosthetic foot based on step-to-step transition cost Daphne Wezenberg, PhD; Andrea G. Cutti, PhD; Antonino Bruno, MS; Han Houdijk, PhD

This article and any supplementary material should be cited as follows: Wezenberg D, Cutti AG, Bruno A, Houdijk H. Differentiation between solid- ankle cushioned heel and energy storage and return prosthetic foot based on step-to-step transition cost. J Rehabil Res Dev. 2014;51(10):1579–90. Slideshow Project DOI: /JRRD JSP Aim – Determine whether energy storage and return (ESAR) feet reduce mechanical energy dissipation during step-to-step transition. Relevance – Decreased push-off power by prosthetic foot and inadequate roll-over shape of foot increase energy dissipation during step-to-step transition in human walking.

This article and any supplementary material should be cited as follows: Wezenberg D, Cutti AG, Bruno A, Houdijk H. Differentiation between solid- ankle cushioned heel and energy storage and return prosthetic foot based on step-to-step transition cost. J Rehabil Res Dev. 2014;51(10):1579–90. Slideshow Project DOI: /JRRD JSP Method Participants: – 15 males with unilateral lower-limb amputation. Procedure: – Ground reaction forces and kinematics were recorded while subjects walked with: Their prescribed ESAR foot. Solid-ankle cushioned heel foot (SACH).

This article and any supplementary material should be cited as follows: Wezenberg D, Cutti AG, Bruno A, Houdijk H. Differentiation between solid- ankle cushioned heel and energy storage and return prosthetic foot based on step-to-step transition cost. J Rehabil Res Dev. 2014;51(10):1579–90. Slideshow Project DOI: /JRRD JSP Results Walking with ESAR foot (vs SACH foot): – Positive mechanical work on center of mass performed by trailing prosthetic limb was larger (33%). – Negative work performed by leading intact limb was lower (13%). Reduced step-to-step transition cost coincided with: – Higher mechanical push-off power generated by ESAR foot. – Extended forward progression of center of pressure under prosthetic ESAR foot.

This article and any supplementary material should be cited as follows: Wezenberg D, Cutti AG, Bruno A, Houdijk H. Differentiation between solid- ankle cushioned heel and energy storage and return prosthetic foot based on step-to-step transition cost. J Rehabil Res Dev. 2014;51(10):1579–90. Slideshow Project DOI: /JRRD JSP Figure 1. Center of mass (COM) mechanical power profiles. COM mechanical power profiles of step during which prosthetic limb is (a) trailing limb and (b) leading limb. Dashed lines represent COM mechanical power under trailing limb, while solid lines represent mechanical power under leading limb. Hatched areas represent part over which push-off work of trailing limb was calculated, while solid areas represent amount of negative work during collision under leading limb. ESAR = energy storage and return foot, SACH = solid- ankle cushioned heel.

This article and any supplementary material should be cited as follows: Wezenberg D, Cutti AG, Bruno A, Houdijk H. Differentiation between solid- ankle cushioned heel and energy storage and return prosthetic foot based on step-to-step transition cost. J Rehabil Res Dev. 2014;51(10):1579–90. Slideshow Project DOI: /JRRD JSP Conclusion Results can explain proposed improvement in walking economy with this kind of ESAR prosthetic foot.