Therapeutic applications of computer models of brain activity for Alzheimer disease.

Duch, Prof Wlodzislaw (2000) Therapeutic applications of computer models of brain activity for Alzheimer disease. [Conference Paper]

Full text available as:

Preview

PDF
60Kb

Abstract

THERAPEUTIC IMPLICATIONS OF COMPUTER MODELS OF BRAIN ACTIVITY FOR ALZHEIMER DISEASE.

Item Type:	Conference Paper
Keywords:	Neural models, Alzheimer disease, synaptic deletion, compensation, rehabilitiation
Subjects:	Neuroscience > Neuropsychology Computer Science > Dynamical Systems Neuroscience > Neural Modelling Biology > Theoretical Biology
ID Code:	3320
Deposited By:	Duch, Prof Wlodzislaw
Deposited On:	18 Dec 2003
Last Modified:	11 Mar 2011 08:55

References in Article

Select the SEEK icon to attempt to find the referenced article. If it does not appear to be in cogprints you will be forwarded to the paracite service. Poorly formated references will probably not work.

[1] AMIT D.J., BRUNEL N., Dynamics of a recurrent network of spiking neurons before and following learning. Network, Vol. 8, pp. 373-404, 1997.

[2] BANQUET J.P, GAUSSIER P, CONTRERAS-VIDAL J.L, GISSLER A, BURNOD Y, LONG D.L., A neural model of memory, amnesia and cortico-hippocampal interactions. In [18], pp. 77-120, 1998.

[3] CALLAWAY E, HALLIDAY R, NAYLOR H, YANO L, HERZIG K., Drugs and human information processing. Neuro-psychopharmacology, Vol. 10, pp. 9-19, 1994.

[4] CRISWELL, E., Biofeedback and Somatics. Freeperson Press, Novato, USA, 1995.

[5] DAMASIO A.R., Descartes' Error: Emotion, Reason and the Human Brain. Papermac, 1996.

[6] DUCH W., Platonic model of mind as an approximation to neurodynamics. In: Brain-like computing and intelligent information systems, eds. S-i. Amari, N. Kasabov (Springer, Singapore), chap. 20, pp. 491-512, 1997.

[7] DUCH W., Sieci neuronowe w modelowaniu zaburzeń neuropsychologicznych i chorób psychicznych. Biocyberne-tyka 2000, Tom 6: Sieci neuronowe (eds. W. Duch, J. Korbicz, L. Rutkowski i R. Tadeusiewicz), chap. II.18, pp. 589-616, 2000.

[8] FUSI S., DEL GIUDICE P., AMIT D.J., Neurophysiology of a VLSI spiking neural network: LANN21, NALS group preprint, Univ. Of Rome, 1999, http://jupiter.roma1.infn.it/

[9] HASSELMO M.E., Runaway synaptic modification in models of cortex: Implications for Alzheimer's disease. Neural Networks, Vol. 7, pp.13-40, 1991.

[10] HASSELMO M.E., A computational model of the progression of Alzheimer's disease. MD Computing, Vol. 14, pp. 181-191, 1997.

[11] HORN D, LEVY N, RUPPIN E., Neuronal-based synaptic compensation: A computational study in Alzheimer's dis-ease. Neural Computation, Vol. 8, pp. 1227-1243, 1996.

[12] HORN, D, RUPPIN, E., USHER, M., HERRMANN, M., Neural network modeling of memory deterioration in Alz-heimer's disease. Neural Computation, Vol. 5, pp. 736-749, 1993.

[13] MAASS W, BISHOP C., Pulsed Neural Networks. MIT Press, Bradford Book, Cambridge, MA, 1999.

[14] MCCLELLAND J. L., RUMELHART D.E., eds. Parallel distributed processing: Explorations in the microstructure of cognition, Vol. I, II, MIT Press, Cambridge, MA, 1987.

[15] MCCLELLAND, J.L., MCNAUGHTON, B.L., O'REILLY, R.C., Why there are complementary learning systems in the hippocampus and neocortex: insights from the successes and failures of connectionist models of learning and memory. Psychological Review, Vol. 102, pp. 419-457, 1995.

[16] MURRE J. M., TraceLink: A model of amnesia and consolidation of memory. Hippocampus, Vol. 6, pp. 675-684, 1996.

[17] MURRE J. M., Implicit and explicit memory in amnesia: some explanations and predictions by the TraceLink model. Memory, Vol. 5, pp. 213-232, 1997.

[18] PARKS R.W, LEVINE D.S, LONG D, eds. Fundamentals of Neural Network Modeling. MIT Press, Cambridge, MA, 1998.

[19] PULVERMUELLER F, PREISSL H, EULITZ C, PANTEV C, LUTZENBERGER W, ELBERT T, BIRBAUMER N., PSYCOLOQUY Vol. 5(48) , 1994. brain-rhythms.1.pulvermueller

[20] ROMERO B., Self-Maintenance-Therapy (SMT) in early Alzheimer Disease. European Archives of Psychiatry and Clinical Neuroscience, Vol. 248, pp.13-14, 1998.

[21] REGGIA J. A, RUPPIN E, BERNDT R.S, eds. Neural Modeling of Brain and Cognitive Disorders. World Scientific, 1996.

[22] REGGIA J, GOODALL S, CHEN Y, RUPPIN E, WHITNEY C., Modeling Post-Stroke Cortical Map Reorganization. In [21], pp. 283-302, 1996.

[23] RUPPIN E, Neural Modeling of Psychiatric Disorders. Network, Vol. 6, pp. 635-656, 1995

[24] RUPPIN E, HORN D, LEVY N, REGGIA J., Computational Studies of Synaptic Alterations in Alzheimer's Disease. In: J. REGGIA, E. RUPPIN, and R. BERNDT, Eds., Neural Modeling of Brain and Cognitive Disorders, World Scientific, 1996.

[25] RUPPIN, E, REGGIA, J., A neural model of memory impairment in diffuse cerebral atrophy. British Journal of Psy-chiatry Vol. 166, pp. 19-28, 1995.

[26] SPITZER M., Phantom Limbs, Self-Organizing Feature Maps, and Noise-Driven Neuroplasticity. In [21], pp. 273-282, 1996.

[27] XING J, GERSTEIN G.L, Networks with lateral connectivity. I. Dynamic properties mediated by the balance of in-trinsic excitation and inhibition. II. Development of neuronal grouping and corresponding receptive field changes. III. Plasticity and reorganization of somato-sensory cortex. J. Neurophysiology, Vol. 75, pp. 184-232, 1996.

Metadata

ASCII Citation
Atom
BibTeX
Dublin Core
EP3 XML
EPrints Application Profile (experimental)
EndNote
HTML Citation
ID Plus Text Citation
JSON
METS
MODS
MPEG-21 DIDL
OpenURL ContextObject
OpenURL ContextObject in Span
RDF+N-Triples
RDF+N3
RDF+XML
Refer
Reference Manager
Search Data Dump
Simple Metadata
YAML

Repository Staff Only: item control page