The long term goal of this research is to establish a theoretical basis for understanding sensorimotor control in posture, including behavior and its underlying physiology. A focus in the present application will be the relationship of neural activity in the cerebellum to postural control. The methods will be entirely theoretical, and a major objective of the research will be to develop a mathematical structure describing the postural control system. The work will be accomplished with the collaboration of experimental physiologists. To achieve this goal, components of strategies that reduce the number of sensorimotor control parameters will be identified, given a set of task requirements such as maintaining stability. Then the components of strategies will be represented as relations between classes of stimuli and motor commands. Since classes of stimuli can also be equivalent for a population of neurons, populations of neurons will be identified whose activity expresses the same equivalence of classes of stimuli and motor commands. Specifically, patterns of neural activity in the cerebellum will be constructed using receptive field data, in order ultimately to determine to what extent populations of active cells in the cerebellum are directly controlling posture. A mathematical structure will be developed to describe postural control at both the behavioral and the neural-activity levels. Results of this research will clarify the unified nature of postural behavior and its underlying physiology, and will provide a more rational basis for diagnosis and treatment of balance disorders.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS023209-07
Application #
3406430
Study Section
Hearing Research Study Section (HAR)
Project Start
1986-03-01
Project End
1993-11-30
Budget Start
1991-12-01
Budget End
1992-11-30
Support Year
7
Fiscal Year
1992
Total Cost
Indirect Cost
Name
Good Samaritan Hosp & Medical Center(Prtlnd,OR)
Department
Type
DUNS #
City
Portland
State
OR
Country
United States
Zip Code
97210
Holly, J E; McCollum, G (1996) The shape of self-motion perception--I. Equivalence classification for sustained motions. Neuroscience 70:461-86
Roberts, P D; McCollum, G (1996) Dynamics of the sit-to-stand movement. Biol Cybern 74:147-57
Holly, J E; McCollum, G (1996) The shape of self-motion perception--II. framework and principles for simple and complex motion. Neuroscience 70:487-513
McCollum, G; Shupert, C L; Nashner, L M (1996) Organizing sensory information for postural control in altered sensory environments. J Theor Biol 180:257-70
McCollum, G; Holroyd, C; Castelfranco, A M (1995) Forms of early walking. J Theor Biol 176:373-90
McCollum, G (1994) Navigating a set of discrete regions in body position space. J Theor Biol 167:263-71
Castelfranco, A M; Robertson, L T; McCollum, G (1994) Detail, proportion, and foci among face receptive fields of climbing fiber responses in the cat cerebellum. Somatosens Mot Res 11:27-46
McCollum, G (1993) Reciprocal inhibition, synergies, and movements. J Theor Biol 165:291-311
McCollum, G (1992) Rules of combination that generate climbing fiber tactile receptive fields. Neuroscience 50:707-25
Robertson, L T; McCollum, G (1991) Stimulus classification by ensembles of climbing fiber receptive fields. Trends Neurosci 14:248-54

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