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European Journal of Applied Physiology

Erschienen in:

01.11.2014 | Original Article

Enhancing performance during inclined loaded walking with a powered ankle–foot exoskeleton

verfasst von: Samuel Galle, Philippe Malcolm, Wim Derave, Dirk De Clercq

Erschienen in: European Journal of Applied Physiology | Ausgabe 11/2014

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Abstract

Purpose

A simple ankle–foot exoskeleton that assists plantarflexion during push-off can reduce the metabolic power during walking. This suggests that walking performance during a maximal incremental exercise could be improved with an exoskeleton if the exoskeleton is still efficient during maximal exercise intensities. Therefore, we quantified the walking performance during a maximal incremental exercise test with a powered and unpowered exoskeleton: uphill walking with progressively higher weights.

Methods

Nine female subjects performed two incremental exercise tests with an exoskeleton: 1 day with (powered condition) and another day without (unpowered condition) plantarflexion assistance. Subjects walked on an inclined treadmill (15 %) at 5 km h⁻¹ and 5 % of body weight was added every 3 min until exhaustion.

Results

At volitional termination no significant differences were found between the powered and unpowered condition for blood lactate concentration (respectively, 7.93 ± 2.49; 8.14 ± 2.24 mmol L⁻¹), heart rate (respectively, 190.00 ± 6.50; 191.78 ± 6.50 bpm), Borg score (respectively, 18.57 ± 0.79; 18.93 ± 0.73) and \(\dot{V}{\rm O}_{2}\) peak (respectively, 40.55 ± 2.78; 40.55 ± 3.05 ml min⁻¹ kg⁻¹). Thus, subjects were able to reach the same (near) maximal effort in both conditions. However, subjects continued the exercise test longer in the powered condition and carried 7.07 ± 3.34 kg more weight because of the assistance of the exoskeleton.

Conclusion

Our results show that plantarflexion assistance during push-off can increase walking performance during a maximal exercise test as subjects were able to carry more weight. This emphasizes the importance of acting on the ankle joint in assistive devices and the potential of simple ankle–foot exoskeletons for reducing metabolic power and increasing weight carrying capability, even during maximal intensities.

Blaya JH, Herr H (2004) Adaptive control of a variable-impedance ankle–foot orthosis to assist drop-foot gait. IEEE Trans Neural Syst Rehab Eng 12:24–31CrossRef

Borg G (1973) Perceived exertion: a note on “history” and methods. Med Sci Sports 5:90–93PubMed

Brockway JM (1987) Derivation of formulae used to calculate energy-expenditure in man. Hum Nutr Clin Nutr 41C:463–471

Cohen J (1977) Statistical power analysis for the behavioral sciences. Academic Press, New York

Collins SH, Jackson RW (2013) A method for harnessing least-effort drives in robotic locomotion training (conference abstract). International conference on rehabilitation robotics, Seattle, WA, USA, Jun 24–26, 2013

Collins SH, Kuo AD (2010) Recycling energy to restore impaired ankle function during human walking. PLoS One 5:e9307PubMedCrossRefPubMedCentral

Daerden F, Lefeber D (2000) Pneumatic artificial muscles: actuators for robotics and automation. Eur J Mech Environ Eng 47:10–21

Dollar AM, Herr H (2008) Lower extremity exoskeletons and active orthoses: challenges and state-of-the-art. IEEE Trans Robot Autom 24:144–158CrossRef

Donelan JM, Li Q, Naing V, Hoffer JA, Weber DJ, Kuo AD (2008) Biomechanical energy harvesting: generating electricity during walking with minimal user effort. Science 319:807–810PubMedCrossRef

Duerinck S, Swinnen E, Beyl P, Hagman F, Jonkers I, Vaes P, Van Roy P (2012) The added value of an actuated ankle-foot orthosis to restore normal gait function in patients with spinal cord injury: a systematic review. J Rehabil Med 44:299–309PubMedCrossRef

Ferris DP, Sawicki GS, Daley MA (2007) A physiologist’s perspective on robotic exoskeletons for human locomotion. Int J Hum Robot 4:507–528CrossRef

Franz JR, Kram R (2012) The effects of grade and speed on leg muscle activations during walking. Gait Posture 35:143–147PubMedCrossRefPubMedCentral

Galle S, Malcolm P, Derave W, De Clercq D (2013a) Adaptation to walking with an exoskeleton that assists ankle extension. Gait Posture 38:495–499PubMedCrossRef

Galle S, Malcolm P, Derave W, De Clercq D (2013b) Assisted plantarflexion influences muscular activity in all leg muscles during uphill walking (Conference abstract). XXIV Congress of the International Society of Biomechanics, Natal, Brazil, Aug 4–9, 2013

Gregorczyk KN, Adams A (2012) Biomechanical and metabolic implication of wearing a powered exoskeleton to carry a backpack load (Conference abstract). 36th Annual Conference of the American Society of Biomechanics, Gainesville, FL, Aug 15–18, 2012 http://www.asbweb.org/conferences/2012/abstracts/52.pdf

Gregorczyk KN, Obusek JP, Hasselquist L, Schiffman JM, Bensel CK, Gutekunst DJ, Frykman P (2006) The effects of a lower body exoskeleton load carriage assistive device on oxygen consumption and kinematics during walking with loads. Technical Report, 25th Army Sci Conf, Orlando, FL, Nov 27–30, 2006 http://www.dtic.mil/cgibin/GetTRDoc?Location=U2&doc=GetTRDoc.pdf&AD=ADA481701

Gregorczyk KN, Hasselquist L, Schiffman JM, Bensel CK, Obusek JP, Gutekunst DJ (2010) Effects of a lower-body exoskeleton device on metabolic cost and gait biomechanics during load carriage. Ergonomics 53:1263–1275PubMedCrossRef

Harman E, Hoon HK, Frykman P, Pandorf C (2000) The effects of backpack weight on the biomechanics of load carriage. Technical Report, U.S. Army Res Inst Environ Med, Natick, MA, May 3, 2000 http://oai.dtic.mil/oai/oai?verb=getRecord&metadataPrefix=html&identifier=ADA377886

Herdy A, Uhlendorf D (2011) Reference values for cardiopulmonary exercise testing for sedentary and active men and women. Arq Bras Cardiol 96:54–59PubMedCrossRef

Kazerooni H, Steger R (2006) The Berkeley lower extremity exoskeleton. J Dyn Syst Meas Control 128:14–25CrossRef

Klimek AT, Klimek A (2007) The weighted walking test as an alternative method of assessing aerobic power. J Sports Sci 25:143–148PubMedCrossRef

Knapik JJ, Harman EA, Steelman RA, Graham BS (2012) A systematic review of the effects of physical training on load carriage performance. J Strength Cond Res 26:585–597PubMedCrossRef

Koch B, Schäper C, Ittermann T, Spielhagen T, Dörr M, Völzke H, Opitz CF, Ewert R, Gläser S (2009) Reference values for cardiopulmonary exercise testing in healthy volunteers: the SHIP study. Eur Respir J 33:389–397PubMedCrossRef

Kramer PA (2010) The effect on energy expenditure of walking on gradients or carrying burdens. Am J Hum Biol 22:497–507PubMedCrossRef

Lay AN, Hass CJ, Gregor RJ (2006) The effects of sloped surfaces on locomotion: a kinematic and kinetic analysis. J Biomech 39:1621–1628PubMedCrossRef

Lay AN, Hass CJ, Nichols TR, Gregor RJ (2007) The effects of sloped surfaces on locomotion: an electromyographic analysis. J Biomech 40:1276–1285PubMedCrossRef

Li Q, Naing V, Donelan JM (2009) Development of a biomechanical energy harvester. J Neuroeng Rehabil 6:22PubMedCrossRefPubMedCentral

Malcolm P, Segers V, Van Caekenberghe I, De Clercq D (2009) Experimental study of the influence of the m. tibialis anterior on the walk-to-run transition by means of a powered ankle–foot exoskeleton. Gait Posture 29:6–10PubMedCrossRef

Malcolm P, Derave W, Galle S, De Clercq D (2013) A simple exoskeleton that assists plantarflexion can reduce the metabolic cost of human walking. PLoS One 8:e56137PubMedCrossRefPubMedCentral

Margaria (1976) Biomechanics and energetics of muscular exercise. Clarendon Press, Oxford

McIntosh AS, Beatty KT, Dwan LN, Vickers DR (2006) Gait dynamics on an inclined walkway. J Biomech 39:2491–2502PubMedCrossRef

Midgley AW, McNaughton LR, Polman R, Marchant D (2007) Criteria for determination of maximal oxygen uptake: a brief critique and recommendations for future research. Sports Med 37:1019–1028PubMedCrossRef

Mooney LM, Rouse EJ, Herr HM (2014) Autonomous exoskeleton reduces metabolic cost of human walking during load carriage. J Neuroeng Rehabil 11:80PubMedCrossRefPubMedCentral

Norris JA, Granata KP, Mitros MR, Byrne EM, Marsh AP (2007) Effect of augmented plantarflexion power on preferred walking speed and economy in young and older adults. Gait Posture 25:620–627PubMedCrossRef

Pratt JE, Krupp BT, Morse CJ, Collins SH (2004) The RoboKnee: an exoskeleton for enhancing strength and endurance during walking (Conference Abstract). IEEE International Conference on Robotics Atomation, New Orleans, Apr 26–May 1, 2004: 2430–2435

Sawicki GS, Ferris DP (2006) The effects of powered ankle-foot orthoses on joint kinematics and muscle activation during walking in individuals with incomplete spinal cord injury. J Neuroeng Rehabil 3:3PubMedCrossRefPubMedCentral

Sawicki GS, Ferris DP (2008) Mechanics and energetics of level walking with powered ankle exoskeletons. J Exp Biol 211:1402–1413PubMedCrossRef

Sawicki GS, Ferris DP (2009a) Mechanics and energetics of incline walking with robotic ankle exoskeletons. J Exp Biol 212:32–41PubMedCrossRef

Sawicki GS, Ferris DP (2009b) Powered ankle exoskeletons reveal the metabolic cost of plantar flexor mechanical work during walking with longer steps at constant step frequency. J Exp Biol 212:21–31PubMedCrossRef

Schiffman JM, Gregorczyk K, Hasselquist L, Bensel CK, Frykman P, Adams A, Obusek JP (2010) Can a lower body exoskeleton improve load-carriage march and post-march performance? Med Sci Sports Exerc 42:283CrossRef

Unal R, Carloni R, Behrens SM, Hekman EE, Stramigioli S, Koopman HF (2012) Towards a fully passive transfemoral prosthesis for normal walking (Conference Abstract). 4th IEEE RAS & EMBS International Conference on Biomedical Robotics and Biomechatronics, Roma, Italy, Jun 24–27, 2012: 1949–1954

Walsh CJ, Endo K, Herr H (2007) A quasi-passive leg exoskeleton for load-carrying augmentation. Int J HR 4:487–506

Wehner M, Quinlivan B, Aubin PM, Martinez-Villalpando E, Baumann M, Stirling L, Holt K, Wood R, Walsh C (2013) A lightweight soft exosuit for gait assistance (Conference Abstract). IEEE International Conference on Robotics Atomation, Karlsruhe, Germany, May 6–10, 2013: 3362–3369

Winter DA (1983) Energy generation and absorption at the ankle and knee during fast, natural, and slow cadences. Clin Orthop Relat Res 175:147–154PubMed

Zoladz JA, Korzeniewski B (2001) Physiological background of the change point in \(\dot{V}{\rm O}_{2}\) and the slow component of oxygen uptake kinetics. J Physiol Pharmacol 52(2):167–184PubMed

Zoss A, Kazerooni H, Chu A (2006) Biomechanical design of the Berkeley lower extremity exoskeleton (BLEEX). IEEE ASME Trans Mechatron 11:128–138CrossRef

Titel: Enhancing performance during inclined loaded walking with a powered ankle–foot exoskeleton
verfasst von: Samuel Galle
Philippe Malcolm
Wim Derave
Dirk De Clercq
Publikationsdatum: 01.11.2014
Verlag: Springer Berlin Heidelberg
Erschienen in: European Journal of Applied Physiology / Ausgabe 11/2014
Print ISSN: 1439-6319
Elektronische ISSN: 1439-6327
DOI: https://doi.org/10.1007/s00421-014-2955-1

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Abstract

Purpose

Methods

Results

Conclusion

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