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2023 Journal Article Flexor hallucis brevis motor unit behavior in response to moderate increases in rate of force developmentAeles, Jeroen, Kelly, Luke A. and Cresswell, Andrew G. (2023). Flexor hallucis brevis motor unit behavior in response to moderate increases in rate of force development. PeerJ, 11 e14341, 1-18. doi: 10.7717/peerj.14341 |
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2022 Journal Article The feasibility, validity, and reliability of strain measures in the iliotibial band during isolated muscular contractionsHutchinson, Laura A., Kelly, Luke A. and Lichtwark, Glen A. (2022). The feasibility, validity, and reliability of strain measures in the iliotibial band during isolated muscular contractions. Journal of Biomechanics, 144 111341, 111341. doi: 10.1016/j.jbiomech.2022.111341 |
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2022 Journal Article Neuromechanical adaptations of foot function when hopping on a damped surfaceBirch, Jonathon V., Farris, Dominic J., Riddick, Ryan, Cresswell, Andrew G., Dixon, Sharon J. and Kelly, Luke A. (2022). Neuromechanical adaptations of foot function when hopping on a damped surface. Journal of Applied Physiology, 133 (6), 1302-1308. doi: 10.1152/japplphysiol.00012.2022 |
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2022 Journal Article Mechanics and energetics of human feet: a contemporary perspective for understanding mobility impairments in older adultsTakahashi, Kota Z., Krupenevich, Rebecca L., Lenz, Amy L., Kelly, Luke A., Rainbow, Michael J. and Franz, Jason R. (2022). Mechanics and energetics of human feet: a contemporary perspective for understanding mobility impairments in older adults. Biomechanics, 2 (4), 494-499. doi: 10.3390/biomechanics2040038 |
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2022 Journal Article A human-centered machine-learning pproach for muscle-tendon junction tracking in ultrasound imagesLeitner, Christoph, Jarolim, Robert, Englmair, Bernhard, Kruse, Annika, Hernandez, Karen Andrea Lara, Konrad, Andreas, Su, Eric, Schrottner, Jorg, Kelly, Luke A., Lichtwark, Glen A., Tilp, Markus and Baumgartner, Christian (2022). A human-centered machine-learning pproach for muscle-tendon junction tracking in ultrasound images. IEEE Transactions on Biomedical Engineering, 69 (6), 1920-1930. doi: 10.1109/TBME.2021.3130548 |
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2022 Journal Article Flexor digitorum brevis utilises elastic strain energy to contribute to both work generation and energy absorption at the footSmith, Ross E., Lichtwark, Glen A. and Kelly, Luke A. (2022). Flexor digitorum brevis utilises elastic strain energy to contribute to both work generation and energy absorption at the foot. Journal of Experimental Biology, 225 (8) jeb243792. doi: 10.1242/jeb.243792 |
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2022 Journal Article Running-related biomechanical risk factors for overuse injuries in distance runners: a systematic review considering injury specificity and the potentials for future researchWillwacher, Steffen, Kurz, Markus, Robbin, Johanna, Thelen, Matthias, Hamill, Joseph, Kelly, Luke and Mai, Patrick (2022). Running-related biomechanical risk factors for overuse injuries in distance runners: a systematic review considering injury specificity and the potentials for future research. Sports Medicine, 52 (8), 1863-1877. doi: 10.1007/s40279-022-01666-3 |
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2022 Journal Article The iliotibial band: a complex structure with versatile functionsHutchinson, L. A., Lichtwark, G. A., Willy, R. W. and Kelly, L. A. (2022). The iliotibial band: a complex structure with versatile functions. Sports Medicine, 52 (5), 995-1008. doi: 10.1007/s40279-021-01634-3 |
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2021 Journal Article Stiffening the human foot with a biomimetic exotendonRiddick, Ryan C., Farris, Dominic J., Brown, Nicholas A. T. and Kelly, Luke A. (2021). Stiffening the human foot with a biomimetic exotendon. Scientific Reports, 11 (1) 22778, 22778. doi: 10.1038/s41598-021-02059-8 |
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2021 Journal Article Examining the intrinsic foot muscles’ capacity to modulate plantar flexor gearingSmith, Ross, Lichtwark, Glen, Farris, Dominic and Kelly, Luke A. (2021). Examining the intrinsic foot muscles’ capacity to modulate plantar flexor gearing. Footwear Science, 13 (sup1), S87-S89. doi: 10.1080/19424280.2021.1917696 |
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2021 Journal Article The energetic function of the human foot and its muscles during accelerations and decelerationsSmith, Ross E., Lichtwark, Glen A. and Kelly, Luke A. (2021). The energetic function of the human foot and its muscles during accelerations and decelerations. Journal of Experimental Biology, 224 (13) jeb242263, 1-9. doi: 10.1242/jeb.242263 |
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2021 Journal Article Stepping onto the unknown: reflexes of the foot and ankle while stepping with perturbed perceptions of terrainRiddick, R. C., Farris, D. J., Cresswell, A. G., Kuo, A. D. and Kelly, L. A. (2021). Stepping onto the unknown: reflexes of the foot and ankle while stepping with perturbed perceptions of terrain. Journal of The Royal Society Interface, 18 (176) 20210061, 20210061. doi: 10.1098/rsif.2021.0061 |
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2021 Journal Article Neuromechanical adaptations of foot function to changes in surface stiffness during hoppingBirch, Jonathon V., Kelly, Luke A., Cresswell, Andrew G., Dixon, Sharon J. and Farris, Dominic J. (2021). Neuromechanical adaptations of foot function to changes in surface stiffness during hopping. Journal of Applied Physiology, 130 (4) japplphysiol.00401.2020, 1196-1204. doi: 10.1152/japplphysiol.00401.2020 |
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2020 Journal Article Foot structure and lower limb function in individuals with midfoot osteoarthritis: a systematic reviewLithgow, Merridy J., Munteanu, Shannon E., Buldt, Andrew K., Arnold, John B., Kelly, Luke A. and Menz, Hylton B. (2020). Foot structure and lower limb function in individuals with midfoot osteoarthritis: a systematic review. Osteoarthritis and Cartilage, 28 (12), 1514-1524. doi: 10.1016/j.joca.2020.08.012 |
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2020 Journal Article Regulation of foot and ankle quasi-stiffness during human hopping across a range of frequenciesKessler, Sarah E., Lichtwark, Glen A., Welte, Lauren K.M., Rainbow, Michael J. and Kelly, Luke A. (2020). Regulation of foot and ankle quasi-stiffness during human hopping across a range of frequencies. Journal of Biomechanics, 108 109853, 109853. doi: 10.1016/j.jbiomech.2020.109853 |
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2020 Journal Article Foot stiffening during the push-off phase of human walking is linked to active muscle contraction, and not the windlass mechanismFarris, Dominic James, Birch, Jonathon and Kelly, Luke (2020). Foot stiffening during the push-off phase of human walking is linked to active muscle contraction, and not the windlass mechanism. Journal of The Royal Society Interface, 17 (168) 20200208, 1-8. doi: 10.1098/rsif.2020.0208 |
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2020 Journal Article Fine-wire recordings of flexor hallucis brevis motor units up to maximal voluntary contraction reveal a flexible, non-rigid mechanism for force controlAeles, Jeroen, Kelly, Luke A., Yoshitake, Yasuhide and Cresswell, Andrew G. (2020). Fine-wire recordings of flexor hallucis brevis motor units up to maximal voluntary contraction reveal a flexible, non-rigid mechanism for force control. Journal of Neurophysiology, 123 (5) jn.00023.2020, 1766-1774. doi: 10.1152/jn.00023.2020 |
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2020 Journal Article The reliability of foot and ankle bone and joint kinematics measured with biplanar videoradiography and manual scientific rotoscopingMaharaj, Jayishni N., Kessler, Sarah, Rainbow, Michael J., D’Andrea, Susan E., Konow, Nicolai, Kelly, Luke A. and Lichtwark, Glen A. (2020). The reliability of foot and ankle bone and joint kinematics measured with biplanar videoradiography and manual scientific rotoscoping. Frontiers in Bioengineering and Biotechnology, 8 106, 106. doi: 10.3389/fbioe.2020.00106 |
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2020 Journal Article Development and validation of statistical shape models of the primary functional bone segments of the footGrant, Tamara M., Diamond, Laura E., Pizzolato, Claudio, Killen, Bryce A., Devaprakash, Daniel, Kelly, Luke, Maharaj, Jayishni N. and Saxby, David J. (2020). Development and validation of statistical shape models of the primary functional bone segments of the foot. PeerJ, 8 (2) e8397, 1-19. doi: 10.7717/peerj.8397 |
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2019 Journal Article Intrinsic foot muscles contribute to elastic energy storage and return in the human footKelly, Luke A, Farris, Dominic J, Cresswell, Andrew G and Lichtwark, Glen A (2019). Intrinsic foot muscles contribute to elastic energy storage and return in the human foot. Journal of Applied Physiology, 126 (1), 231-238. doi: 10.1152/japplphysiol.00736.2018 |
