Evidencia reciente en diferentes sistemas fisiológicos respalda una teoría de pérdida de complejidad, que establece que la complejidad de la actividad fisiológica se rompe con el envejecimiento y la enfermedad. En esta charla, discutiremos brevemente …
Recent evidence in different physiological systems supports a theory of complexity-loss, which states that the complexity carried out by physiological outputs breaks down with aging and disease. In this talk, we will briefly discuss entropy-based …
Neurodegenerative diseases (NDs) are one of our most significant public health challenges. In these diseases, neurons in specific brain areas progressively and irreversibly deteriorate until they die. Alzheimer’s disease (AD) and Parkinson’s disease (PD) are two of the major NDs and among the leading causes of death in the elderly population.
Recently, there has been growing interest in the use of entropy tools for biological signal analysis after the introduction of the multiscale entropy (MSE) method. Under this framework, a measure of the disorder or entropy of a physiological output …
Nuestro trabajo de aplicación de herramientas de entropía y complejidad para la detección de la enfermedad de Alzheimer fue destacado en varios medios nacionales. En nuestra investigación, registramos la actividad eléctrica de la retina de ratones sanos y ratones transgénicos que expresan los síntomas de la enfermedad de Alzheimer.
Alzheimer’s disease (AD) is one of the most significant health challenges of our time, affecting a growing number of the elderly population. In recent years, the retina has received increased attention as a candidate for AD biomarkers since it …
Healthy states appear to be more complex than those observed in disease. We perform complexity and entropy analyses of physiological signals to provide tools for diagnosis.