NeuroEng@Usach
NeuroEng@Usach
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Max Chacón
Departamento de Ingeniería Informática - Universidad de Santiago de Chile
Latest
Protective Mechanisms in Retinal Aging: The Role of XBP1s in Alzheimer's Disease Mouse Models
ANID Fondecyt Regular 1241202: Analysis of electrophysiological retinal signals using biological complexity in Alzheimer's disease patients
ANID Exploración 13220082: Looking through the window: A novel complexity-based electroretinogram analysis for neurodegenerative disease diagnosis
Trabajo de complejidad para identificación de Alzheimer destacado en CNN-Chile, Chilevisión y otros
Multiscale Entropy Analysis of Retinal Signals Reveals Reduced Complexity in a Mouse Model of Alzheimer's Disease
Multiscale Entropy Analysis of Retinal Signals Reveals Reduced Complexity in a Mouse Model of Alzheimer's Disease
Multi-Scale Entropy Analysis of Retinal Signals in an Animal Model of Alzheimer’s Disease
Teoría de la complejidad en sistemas biológicos
Complexity analyses of electrophysiological signals
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