Energy-saving mechanisms in walking and running

RM Alexander
Department of Pure and Applied Biology, University of Leeds, UK.

Energy can be saved in terrestrial locomotion in many different ways. The maximum shortening speeds (Vmax) of the muscles can be adjusted to their optimum values for the tasks required of them. The moments exerted by the muscles at different joints can be adjusted to keep the ground force in line with the leg so that muscles do not work against each other. The joints of the legs can be kept as straight as possible, minimizing muscle forces and work requirements. Walking gaits should be selected at low Froude numbers (a dimensionless speed parameter) and running gaits at high Froude numbers. Tendon and other springs can be used to store elastic strain energy and to return it by elastic recoil. This paper aims to show how these energy-saving mechanisms work and to what extent mammals exploit them. Arguments based on our rather limited knowledge of the relationship between the mechanical performance of muscle and its metabolic energy consumption are used throughout. They suggest that muscles that are optimally adapted for their tasks in running should do positive work with constant efficiency.

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				Y.-H. Chang and R. Kram Limitations to maximum running speed on flat curves J. Exp. Biol., March 15, 2007; 210(6): 971 - 982. [Abstract] [Full Text] [PDF]

				J. S. Gottschall and R. Kram Mechanical energy fluctuations during hill walking: the effects of slope on inverted pendulum exchange J. Exp. Biol., December 15, 2006; 209(24): 4895 - 4900. [Abstract] [Full Text] [PDF]

				E. E. Vereecke, K. D'Aout, and P. Aerts The dynamics of hylobatid bipedalism: evidence for an energy-saving mechanism? J. Exp. Biol., August 1, 2006; 209(15): 2829 - 2838. [Abstract] [Full Text] [PDF]

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				M. Ishikawa, P. V. Komi, M. J. Grey, V. Lepola, and G.-P. Bruggemann Muscle-tendon interaction and elastic energy usage in human walking J Appl Physiol, August 1, 2005; 99(2): 603 - 608. [Abstract] [Full Text] [PDF]

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				T. M. Griffin, R. P. Main, and C. T. Farley Biomechanics of quadrupedal walking: how do four-legged animals achieve inverted pendulum-like movements? J. Exp. Biol., September 15, 2004; 207(20): 3545 - 3558. [Abstract] [Full Text] [PDF]

				M. KJAeR Role of Extracellular Matrix in Adaptation of Tendon and Skeletal Muscle to Mechanical Loading Physiol Rev, April 1, 2004; 84(2): 649 - 698. [Abstract] [Full Text] [PDF]

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				H. Seeherman, R. Li, and J. Wozney A Review of Preclinical Program Development for Evaluating Injectable Carriers for Osteogenic Factors J. Bone Joint Surg. Am., August 1, 2003; 85(90003): 96 - 108. [Full Text] [PDF]

				T. M. Griffin, T. J. Roberts, and R. Kram Metabolic cost of generating muscular force in human walking: insights from load-carrying and speed experiments J Appl Physiol, July 1, 2003; 95(1): 172 - 183. [Abstract] [Full Text] [PDF]

				Y. P. Ivanenko, R. Grasso, V. Macellari, and F. Lacquaniti Control of Foot Trajectory in Human Locomotion: Role of Ground Contact Forces in Simulated Reduced Gravity J Neurophysiol, June 1, 2002; 87(6): 3070 - 3089. [Abstract] [Full Text] [PDF]

				P. DeVita and T. Hortobagyi Age Increases the Skeletal Versus Muscular Component of Lower Extremity Stiffness During Stepping Down J. Gerontol. A Biol. Sci. Med. Sci., December 1, 2000; 55(12): 593B - 600. [Abstract] [Full Text]

JOURNAL ARTICLES

Energy-saving mechanisms in walking and running

				S. P. Magnusson, P. Aagaard, B. Larsson, and M. Kjaer Passive energy absorption by human muscle-tendon unit is unaffected by increase in intramuscular temperature J Appl Physiol, April 1, 2000; 88(4): 1215 - 1220. [Abstract] [Full Text] [PDF]

				F. Fish and R. Baudinette Energetics of locomotion by the Australian water rat (Hydromys chrysogaster): a comparison of swimming and running in a semi-aquatic mammal J. Exp. Biol., January 2, 1999; 202(4): 353 - 363. [Abstract] [PDF]

				T. M. Griffin, N. A. Tolani, and R. Kram Walking in simulated reduced gravity: mechanical energy fluctuations and exchange J Appl Physiol, January 1, 1999; 86(1): 383 - 390. [Abstract] [Full Text] [PDF]

				M. J. Bellizzi, K. A.�D. King, S. K. Cushman, and P. G. Weyand Does the application of ground force set the energetic cost of cross-country skiing? J Appl Physiol, November 1, 1998; 85(5): 1736 - 1743. [Abstract] [Full Text] [PDF]

				D. P. Ferris and C. T. Farley Interaction of leg stiffness and surface stiffness during human hopping J Appl Physiol, January 1, 1997; 82(1): 15 - 22. [Abstract] [Full Text] [PDF]