Abstract

The overall goal of this COBRE is to develop an interdisciplinary interactive Centerfor Research in Human Movement Variability that will foster high quality biomedical research in the exploration ofthe mechanisms of human movement variability in order to treat and prevent motor related disorders. The Administrative Core covers the overall structural organization of the COBRE.
The aims of the Administrative Core are to provide the overall scientific direction for research carried out in the Center for Research in Human Movement Variability, coordinate the mentoring program for all of the junior investigators, support the functions of the External Advisory Committee and the Internal Advisory Committee, and recruit new faculty and students to the Center. The Administrative Core will have the responsibility of organizing Center activities such as seminars, journal clubs and conferences. It will also have responsibility regarding dissemination of information and handling budgetary and clerical support needs.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Exploratory Grants (P20)
Project #
1P20GM109090-01
Application #
8663407
Study Section
Special Emphasis Panel (ZGM1-TWD-C (C1))
Project Start
Project End
Budget Start
2014-08-01
Budget End
2015-04-30
Support Year
1
Fiscal Year
2014
Total Cost
$1,271,920
Indirect Cost
$310,819

  Institution

Name
University of Nebraska Omaha
Department
Type
DUNS #
190827162
City
Omaha
State
NE
Country
United States
Zip Code
68182

  Publications

Malcolm, Philippe; Galle, Samuel; Van den Berghe, Pieter et al. (2018) Exoskeleton assistance symmetry matters: unilateral assistance reduces metabolic cost, but relatively less than bilateral assistance. J Neuroeng Rehabil 15:74
Bruening, Dustin A; Pohl, Michael B; Takahashi, Kota Z et al. (2018) Midtarsal locking, the windlass mechanism, and running strike pattern: A kinematic and kinetic assessment. J Biomech 73:185-191
Kempski, Kelley; Awad, Louis N; Buchanan, Thomas S et al. (2018) Dynamic structure of lower limb joint angles during walking post-stroke. J Biomech 68:1-5
Haworth, Joshua; Stergiou, Nicholas (2018) Orderliness of Visual Stimulus Motion Mediates Sensorimotor Coordination. Front Physiol 9:1441
Childers, W Lee; Takahashi, Kota Z (2018) Increasing prosthetic foot energy return affects whole-body mechanics during walking on level ground and slopes. Sci Rep 8:5354
Leeder, Taylor; Fallahtafti, Farahnaz; Schieber, Molly et al. (2018) Optic flow improves step width and length in older adults while performing dual task. Aging Clin Exp Res :
Lanier, Amelia S; Knarr, Brian A; Stergiou, Nicholas et al. (2018) A Novel and Safe Approach to Simulate Cutting Movements Using Ground Reaction Forces. Sensors (Basel) 18:
Ray, Nicole T; Knarr, Brian A; Higginson, Jill S (2018) Walking speed changes in response to novel user-driven treadmill control. J Biomech 78:143-149
Rand, Troy J; Mukherjee, Mukul (2018) Transitions in persistence of postural dynamics depend on the velocity and structure of postural perturbations. Exp Brain Res 236:1491-1500
Groff, Boman R; Antonellis, Prokopios; Schmid, Kendra K et al. (2018) Stride-time variability is related to sensorimotor cortical activation during forward and backward walking. Neurosci Lett 692:150-158

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