John W. Ramsay, Ph.D.
Affiliations: | 2014 | Biomechanics and Movement Science | University of Delaware, Newark, DE, United States |
Area:
neuromuscular biomechanicsGoogle:
"John Ramsay"Mean distance: 19.39 (cluster 22)
Parents
Sign in to add mentor| Jill Higginson | grad student | 2014 | University of Delaware | |
| (Muscle morphological changes, compensatory strategies and the use of predictive simulations to direct the rehabilitation of individuals post-stroke.) | ||||
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Publications
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| Schindler JB, Hancock CL, Zifchock RA, et al. (2024) The intra- and interrater reliability of isometric muscle contractions using a novel fixation system for a hand-held dynamometer. European Journal of Sport Science |
| Kaplan JT, Ramsay JW, Cameron SE, et al. (2020) Association Between Knee Anatomic Metrics and Biomechanics for Male Soldiers Landing With Load. The American Journal of Sports Medicine. 363546520911608 |
| Schindler J, Kaplan J, Hancock C, et al. (2019) Effects Of A Loaded Roach March On Isometric Muscle Strength Measured With A Novel HHD Fixation System Medicine & Science in Sports & Exercise. 51: 990-991 |
| Brown TN, Kaplan JT, Cameron SE, et al. (2018) Individuals with varus thrust do not increase knee adduction when running with body borne load. Journal of Biomechanics |
| Seymore KD, Cameron SE, Kaplan JT, et al. (2017) Dual-task and anticipation impact lower limb biomechanics during a single-leg cut with body borne load. Journal of Biomechanics |
| Ramsay JW, Hancock CL, O'Donovan MP, et al. (2016) Soldier-relevant body borne loads increase knee joint contact force during a run-to-stop maneuver. Journal of Biomechanics |
| Ramsay J, Hancock CL, O'Donovan MP, et al. (2016) Body-Borne Load Increases Peak Knee Extensor Muscle Force During a Reactive Run-to-Stop Task: 3118 Board #183 June 3, 2: 00 PM - 3: 30 PM. Medicine and Science in Sports and Exercise. 48: 886 |
| Ramsay JW, Brown TN. (2015) Body-borne Loads Increase Knee Joint Contact Force During Run-to-stop Task Medicine & Science in Sports & Exercise. 47: 82 |
| Ramsay JW, Buchanan TS, Higginson JS. (2014) Differences in Plantar Flexor Fascicle Length and Pennation Angle between Healthy and Poststroke Individuals and Implications for Poststroke Plantar Flexor Force Contributions. Stroke Research and Treatment. 2014: 919486 |
| Ramsay JW, Wessel MA, Buchanan TS, et al. (2014) Poststroke muscle architectural parameters of the tibialis anterior and the potential implications for rehabilitation of foot drop. Stroke Research and Treatment. 2014: 948475 |