Guillermo Molero–Castillo scite author profile

Given the ever-increasing prevalence of type 2 diabetes and obesity, the pressure on global healthcare is expected to be colossal, especially in terms of blindness. Electroretinogram (ERG) has long been perceived as a first-use technique for diagnosing eye diseases, and some studies suggested its use for preventable risk factors of type 2 diabetes and thereby diabetic retinopathy (DR). Here, we show that in a non-evoked mode, ERG signals contain spontaneous oscillations that predict disease cases in rodent models of obesity and in people with overweight, obesity, and metabolic syndrome but not yet diabetes, using one single random forest-based model. Classification performance was both internally and externally validated, and correlation analysis showed that the spontaneous oscillations of the non-evoked ERG are altered before oscillatory potentials, which are the current gold-standard for early DR. Principal component and discriminant analysis suggested that the slow frequency (0.4–0.7 Hz) components are the main discriminators for our predictive model. In addition, we established that the optimal conditions to record these informative signals, are 5-minute duration recordings under daylight conditions, using any ERG sensors, including ones working with portative, non-mydriatic devices. Our study provides an early warning system with promising applications for prevention, monitoring and even the development of new therapies against type 2 diabetes.

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Data fusion as source for the generation of useful knowledge in context-aware systems

Muñoz

Molero–Castillo

Benítez–Guerrero

et al. 2018

IFS

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Design of an Analysis Guide for User-Centered Process Mining Projects

Céspedes-González

Valdés

Molero–Castillo

et al. 2019

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Spontaneous electroretinogram signals to screen people with early risk factors for diabetic retinopathy

Imm

Muñoz-Benitez

Medina

et al. 2022

Preprint

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Given the ever-increasing prevalence of type 2 diabetes and obesity, the pressure on global healthcare is expected to be colossal, especially in terms of blindness. Electroretinogram (ERG) has long been perceived as a first-use technique for diagnosing eye diseases, but existing methods are insufficient to screen early risk factors of diabetic retinopathy (DR). Here, we introduce non-evoked ERG as a simple, fast modality to record spontaneous activity, from which we developed a single random forest-based model that predicts disease cases in rodent models of obesity and in people with overweight, obesity, and metabolic syndrome. Classification performance was validated using a dataset from an independent eye center. Our algorithm can be coupled with different ERG sensors, including ones working with portative, non-mydriatic devices. Principal component and discriminant analysis suggest slow spontaneous ERG frequencies as main discriminators for our predictive model. Our study will facilitate the implementation of interventions for the prevention of overweight and obesity by providing a robust, quantitative, and non-invasive identification and follow-up approach, which should ultimately reduce DR incidence.

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Towards a Method for Biosignals Analysis as Support for the Design of Adaptive User-Interfaces

Avalos-Viveros¹,

Molero–Castillo²,

Benitez-Guerrro³

et al. 2018

RCS

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Biosignals are information sources obtained from the different biological and physiological structures of the human organism. This paper presents the advance of the proposal of a method for the biosignals analysis, which allows serving as support for the design of adaptive user-interfaces. This method includes four stages: biosignals collection, extraction and preparation, analysis, and getting patterns. This analysis and obtaining of user patterns through the biosignals could be especially useful because they represent valuable information related to events or actions of user behavior, which could be incorporated in the stage of requirements specification for the design of adaptive user-interfaces, and even serve for the refinement of these.

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