J Korean Neurol Assoc > Volume 16(3); 1998 > Article
Journal of the Korean Neurological Association 1998;16(3): 326-330.
파킨슨증상 발현 기전의 신경망적 모델
최경규, 김용재, 박기덕
이화의대 신경과학교실
NEURAL NETWORK MODEL OF MECHANISM OF PARKINSON SYMPTOMS
Kyoung Gyu Choi, M.D. Yong Jae Kim, M.D., Kee Duk Park,M.D.
Department of Neurology, Ewha Womans University Medical College, Seoul, Korea
Abstract
Background : Despite recent advances in the understanding of the pathophysiology based on the clinical symptomatology, neurobiology, and electrophysiology, little is known about the precise function the basal ganglia play in the control of movement. But rapid progress in computational neuroscience has shown networks of neural-like elements can accomplish impressive cognitive feats. We intend to make neural network model that may theoretically explain the basal ganglia function.
Methods: We used an approach to studying the function of neural system that is based on a class of computer models known as parallel distributed processors (PDP).
Results: We made a theoretical model that showed increased reaction time and decreased movement velocity as the amount of dopamine decreased. And the lesion studies of substantia nigra also showed increased reaction time as in bradykinesia.
Conclusions: There were many problems to be solved for explaining the function of striato-pallidal and striato-pallidal-subthalamic-pallidal circuits. But we propose the neural network model would be an important tool, which may help to bridge the gap between theoretical studies on the function of the brain and experimental work on the neurobiology of the brain. Key Words: Basal ganglia, Parkinson disease, Neural network
TOOLS
METRICS Graph View
  • 1,315 View
  • 5 Download
Related articles


ABOUT
BROWSE ARTICLES
EDITORIAL POLICY
FOR CONTRIBUTORS
Editorial Office
(ZIP 03163) #1111, Daeil Bldg, 12, Insadong-gil, Jongno-gu, Seoul, Korea
Tel: +82-2-737-6530    Fax: +82-2-737-6531    E-mail: jkna@neuro.or.kr                

Copyright © 2024 by Korean Neurological Association.

Developed in M2PI

Close layer