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2000

A dynamical-systems model for Parkinson's disease

13 years 11 months ago
A dynamical-systems model for Parkinson's disease
Abstract. The juxtaposition of hypokinetic and hyperkinetic symptoms in Parkinson's disease (PD) presents a challenge in modeling the basal ganglia. We propose a model of the striatum that can account for the mixture of symptoms seen in PD. In the model, the problem of motor planning is cast in terms of a particle in a potential, where potentials are generated internally in striatal modules, subject to aerent control. Planned movement is governed by Hamilton's equations, where potential energy is supplied by potentials expressed in the striatum. To test the model in realistic situations, a dynamic simulation of a two-link robot arm was used. Normal movement is modeled and shown to exhibit observed experimental properties. Symptoms of PD are reproduced by modeling hypothetical consequences of PD pathology.
Christopher I. Connolly, J. Brian Burns, Mandar S.
Added 17 Dec 2010
Updated 17 Dec 2010
Type Journal
Year 2000
Where BC
Authors Christopher I. Connolly, J. Brian Burns, Mandar S. Jog
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