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Neuronal Oscillations on Evolving Networks: Dynamics, Damage, Degradation, Decline, Dementia, and Death

Alain Goriely, Ellen Kuhl, Christian Bick

2020Physical Review Letters44 citationsDOIOpen Access PDF

Abstract

Neurodegenerative diseases, such as Alzheimer's or Parkinson's disease, show characteristic degradation of structural brain networks. This degradation eventually leads to changes in the network dynamics and degradation of cognitive functions. Here, we model the progression in terms of coupled physical processes: The accumulation of toxic proteins, given by a nonlinear reaction-diffusion transport process, yields an evolving brain connectome characterized by weighted edges on which a neuronal-mass model evolves. The progression of the brain functions can be tested by simulating the resting-state activity on the evolving brain network. We show that while the evolution of edge weights plays a minor role in the overall progression of the disease, dynamic biomarkers predict a transition over a period of 10 years associated with strong cognitive decline.

Topics & Concepts

Cognitive declineNeuroscienceDementiaConnectomeDegradation (telecommunications)CognitionDementia with Lewy bodiesNetwork dynamicsDiseaseComputer scienceBiologyMedicineInternal medicineFunctional connectivityMathematicsTelecommunicationsDiscrete mathematicsNeural dynamics and brain functionFunctional Brain Connectivity StudiesGene Regulatory Network Analysis