Abstract

The ultimate goal of clinicians treating patients with movement dysfunction is to restore normal movement This restoration of normal movement can only be accomplished with knowledge of the normal patterns of movement. These normal patterns of movement are produced by an interaction of neural circuits, primarily in the spinal cord, and the musculoskeletal system. Patterns of output element (traditionally defined muscles and/neuromuscular compartments) activity (synergies) underlie the movement trajectories used during volitional movement and during movement evoked by perturbations, such as those induced by stretch.
The aims of this project are to: l) determine the synergies underlying specific volitional and perturbation-evoked movements that have the same trajectory, and determine whether these synergies are the same; 2) determine if altering perturbation-evoked synergies using newly developed operant conditioning methods alters the matching volitional synergy; 3) repeat studies for aims l & 2 in patient subjects to determine whether we can develop a treatment tool to affect movement in patients with movement dysfunction. The results of this study will provide information on normal movement, but more importantly provide a logical rationale for treating patients with movement dysfunction.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Research Program Projects (P01)
Project #
5P01HD032571-05
Application #
6296798
Study Section
Project Start
1999-02-01
Project End
2001-01-31
Budget Start
Budget End
Support Year
5
Fiscal Year
1999
Total Cost
Indirect Cost

  Institution

Name
Emory University
Department
Type
DUNS #
042250712
City
Atlanta
State
GA
Country
United States
Zip Code
30322

  Publications

Eftekhar, Amir; Norton, James J S; McDonough, Christine M et al. (2018) Retraining Reflexes: Clinical Translation of Spinal Reflex Operant Conditioning. Neurotherapeutics :
Norton, James J S; Wolpaw, Jonathan R (2018) Acquisition, Maintenance, and Therapeutic Use of a Simple Motor Skill. Curr Opin Behav Sci 20:138-144
Gregor, Robert J; Maas, Huub; Bulgakova, Margarita A et al. (2018) Time course of functional recovery during the first 3 mo after surgical transection and repair of nerves to the feline soleus and lateral gastrocnemius muscles. J Neurophysiol 119:1166-1185
Chen, Yi; Chen, Lu; Wang, Yu et al. (2017) Why New Spinal Cord Plasticity Does Not Disrupt Old Motor Behaviors. J Neurosci 37:8198-8206
Pantall, Annette; Hodson-Tole, Emma F; Gregor, Robert J et al. (2016) Increased intensity and reduced frequency of EMG signals from feline self-reinnervated ankle extensors during walking do not normalize excessive lengthening. J Neurophysiol 115:2406-20
Chen, Xiang Yang; Wang, Yu; Chen, Yi et al. (2016) Ablation of the inferior olive prevents H-reflex down-conditioning in rats. J Neurophysiol 115:1630-6
Gordon, Tessa; English, Arthur W (2016) Strategies to promote peripheral nerve regeneration: electrical stimulation and/or exercise. Eur J Neurosci 43:336-50
Zhu, Xiya; Ward, Patricia J; English, Arthur W (2016) Selective Requirement for Maintenance of Synaptic Contacts onto Motoneurons by Target-Derived trkB Receptors. Neural Plast 2016:2371893
Krakowiak, Joey; Liu, Caiyue; Papudesu, Chandana et al. (2015) Neuronal BDNF signaling is necessary for the effects of treadmill exercise on synaptic stripping of axotomized motoneurons. Neural Plast 2015:392591
Lyle, M A; Valero-Cuevas, F J; Gregor, R J et al. (2015) Lower extremity dexterity is associated with agility in adolescent soccer athletes. Scand J Med Sci Sports 25:81-8

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