Jonas Rubenson

Kinesiology Pennsylvania State University, State College, PA, United States 
biomechanics, locomotion, skeletal muscle,
"Jonas Rubenson"
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McDonald KA, Cusumano JP, Hieronymi A, et al. (2022) Humans trade off whole-body energy cost to avoid overburdening muscles while walking. Proceedings. Biological Sciences. 289: 20221189
Cox SM, DeBoef A, Salzano MQ, et al. (2021) Plasticity of the gastrocnemius elastic system in response to decreased work and power demand during growth. The Journal of Experimental Biology
Katugam K, Cox SM, Salzano MQ, et al. (2020) Altering the Mechanical Load Environment During Growth Does Not Affect Adult Achilles Tendon Properties in an Avian Bipedal Model. Frontiers in Bioengineering and Biotechnology. 8: 994
Cox SM, Salzano MQ, Piazza SJ, et al. (2019) Eliminating high-intensity activity during growth reduces mechanical power capacity but not sub-maximal metabolic cost in a bipedal animal model. Journal of Applied Physiology (Bethesda, Md. : 1985)
McDonald KA, Cusumano JP, Peeling P, et al. (2019) Multi-objective control in human walking: insight gained through simultaneous degradation of energetic and motor regulation systems. Journal of the Royal Society, Interface. 16: 20190227
McDonald KA, Devaprakash D, Rubenson J. (2019) Is conservation of center of mass mechanics a priority in human walking? Insights from leg-length asymmetry experiments. The Journal of Experimental Biology
Salzano MQ, Cox SM, Piazza SJ, et al. (2018) High-acceleration training during growth increases optimal muscle fascicle lengths in an avian bipedal model. Journal of Biomechanics
Pires NJ, Lay BS, Rubenson J. (2018) Modulation of joint and limb mechanical work in walk-to-run transition steps in humans. The Journal of Experimental Biology
Bishop PJ, Graham DF, Lamas LP, et al. (2018) The influence of speed and size on avian terrestrial locomotor biomechanics: Predicting locomotion in extinct theropod dinosaurs. Plos One. 13: e0192172
Bishop PJ, Clemente CJ, Weems RE, et al. (2017) Using step width to compare locomotor biomechanics between extinct, non-avian theropod dinosaurs and modern obligate bipeds. Journal of the Royal Society, Interface. 14
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