Marko Dimiskovski scite author profile

Marko Dimiskovski

2Publications

5Citation Statements Received

49Citation Statements Given

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Affiliations

Drexel University, Temple University

Publications

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Characterization and validation of a split belt treadmill for measuring hindlimb ground-reaction forces in able-bodied and spinalized felines

Dimiskovski

Scheinfield

Higgin

et al. 2017

Journal of Neuroscience Methods

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BACKGROUND The measurement of ground reaction forces (GRFs) in animals trained to locomote on a treadmill after spinal cord injury (SCI) could prove valuable for evaluating training outcomes; however, quantitative measures of the GRFs in spinal felines are limited. NEW METHOD A split belt treadmill was designed and constructed to measure the GRFs of feline hindlimbs during stepping. The treadmill consists of two independent treadmill assemblies, each mounted on a force plate. The design allows measurements of the vertical (Fz), fore-aft (Fy) and mediolateral (Fx) ground-reaction forces for both hindlimbs while the forelimbs are resting on a platform. RESULTS Static and dynamic noise tests revealed little to no noise at frequencies below 6 Hz. Validation of the force plate measurements with a hand-held force sensor force showed good agreement between the two force readings. Peak normalized (to body mass) vertical GRFs for intact cats were 4.89±0.85N/Kg for the left hindlimb and 4.79±0.97N/Kg for the right. In comparison, trained spinalized cats peak normalized vertical GRFs were 2.20±0.94N/Kg for the left hindlimb and 2.85±0.99N/Kg for the right. COMPARISON WITH OTHER EXISTING METHODS Previous methods of measuring GRFs used stationary single force plates or treadmill mounted to single force plate. Using independent treadmills for each hindlimb allows measurement of the individual hindlimb’s GRFs in spinalized cats following body-weight supported treadmill training. CONCLUSIONS The split belt force treadmill enables the simultaneous recording of ground-reaction forces for both hindlimbs in cats prior to spinalization, and following spinalization and body-weight-supported treadmill training (BWST).

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International Biomedical Engineering Education through Collaborative Student Service-learning Experiences

Bhatt

Dimiskovski

Lin

et al.

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received a M.S. in library and information science and M.S. in electrical and computer engineering from Drexel University. Some of his interest areas include collection development in engineering, outreach to faculty and students, and teaching engineering information research skills to faculty and students. He is the the 2010 recipient of the Homer I. Bernhardt Distinguished Service award from ASEE's Engineering Libraries Division and the 2003 recipient of Drexel University's Harold Myers Distinguished Service Award.

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