PublicationsJournal
1.
Journal of Experimental Biology 203: 2405-2415, 2000
March 8, 2000
Donelan JM and Kram R.
Exploring dynamic similarity in human running using simulated reduced gravity. Journal of Experimental Biology 203: 2405-2415, 2000.
2.
Donelan JM
March 8, 2001
Donelan JM, Kram R, and Kuo AD.
Mechanical and metabolic determinants of the preferred step width in human walking. Proceedings of the Royal Society of London Series B-Biological Sciences 268: 1985-1992, 2001.
3.
Shipman DW
March 8, 2004
Donelan JM, Shipman DW, Kram R, and Kuo AD. Mechanical and metabolic requirements for active lateral stabilization in human walking. Journal of Biomechanics 37: 827-835, 2004.
4.
Contribution of sensory feedback to ongoing ankle extensor activity during the stance phase of walking. Canadian Journal of Physiology and Pharmacology 82: 589-598, 2004
March 8, 2004
Donelan JM and Pearson KG.
Contribution of sensory feedback to ongoing ankle extensor activity during the stance phase of walking. Canadian Journal of Physiology and Pharmacology 82: 589-598, 2004.
5.
March 28, 2005
Doke, J., J. M. Donelan, et al.
Mechanics and energetics of swinging the human leg. Journal of Experimental Biology 208(Pt 3): 439-45, 2005.
6.
March 28, 1997
Donelan, J. M.
The Effect of Reduced Gravity on the Kinematic of Human Walking: A test of the dynamic similarity hypothesis for locomotion. Journal of Experimental Biology 200(24):3193-3201, 1997.
7.
March 28, 1998
Kram, R., T.M Griffin, et al. Force treadmill for measuring vertical and horizontal ground reaction forces. Journal of Applied Physiology 85(2):764-9, 1998.
8.
March 28, 2002
Donelan, J. M., R. Kram, et al.
Mechanical work for step-to-step transitions is a major determinant of the metabolic cost of human walking. Journal of Experimental Biology 205(Pt 23): 3717-27, 2002.
9.
March 28, 2002
Donelan, J. M., R. Kram, et al.
Simultaneous positive and negative external mechanical work in human walking. Journal of Biomechanics 35(1): 117-124, 2002.
10.
March 28, 2004
Donelan, J. M. and K. G. Pearson
Contribution of force feedback to ankle extensor activity in decerebrate walking cats. Journal of Neurophysiology 92(4): 2093-2104, 2004.
11.
March 28, 2005
Kuo, A. D., J. M. Donelan, et al.
Energetic consequences of walking like an inverted pendulum: step-to-step transitions. Exercise and Sport Sciences Reviews 33(2): 88-97, 2005.
12.
February 8, 2008
Donelan, J. M., Q. Li, et al.
Biomechanical energy harvesting: generating electricity during walking with minimal user effort. Science 319(5864): 807-810, 2008.
13.
July 21, 2008
Bullimore, S. R., J. M. Donelan, et al.
Criteria for dynamic similarity in bouncing gaits. Journal of Theoretical Biology 250(2): 339-348, 2008.
14.
November 1, 2005
McVea, D. A., J. M. Donelan, et al. A role for hip position in initiating the swing-to-stance transition in walking cats. Journal of Neurophysiology 94(5): 3497-3508, 2005.
15.
March 1, 2006
Tachibana, A., D. A. McVea, et al.Recruitment of gastrocnemius muscles during the swing phase of stepping following partial denervation of knee flexor muscles in the cat. Experimental Brain Research 169(4): 449-460, 2006.
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