The use of chromatic pupil responses may be a novel way to diagnose and monitor diseases affecting either the outer or inner retina. Here we developed a model-based approximation of the dynamics of pupillary diameter after an optical stimulation; we assume the response of the pupil is approximated as the output of a 2nd-order linear model. Model parameters are identified by using a least-squares fitting procedure, thus obtaining an optimal estimate of the activation time and of the shape of the pupil response to the stimulation. Results indicate the model adequately represents the curve shape; despite the presence of artifacts, that hinder the fitting procedure, a significant difference in the time constants of the model of controls and of patients is present.
Modeling of Pupillometric Signals for Studying Children’s Rare Diseases / Fabbri R.; Iadanza E.; Gherardelli M.; Melillo P.; Simonelli F.; Bocchi L.. - ELETTRONICO. - 82:(2021), pp. 83-90. (Intervento presentato al convegno 11th Asian-Pacific Conference on Medical and Biological Engineering, APCMBE 2020 tenutosi a jpn nel 2020) [10.1007/978-3-030-66169-4_12].
Modeling of Pupillometric Signals for Studying Children’s Rare Diseases
Fabbri R.;Iadanza E.
;Gherardelli M.;Bocchi L.
2021
Abstract
The use of chromatic pupil responses may be a novel way to diagnose and monitor diseases affecting either the outer or inner retina. Here we developed a model-based approximation of the dynamics of pupillary diameter after an optical stimulation; we assume the response of the pupil is approximated as the output of a 2nd-order linear model. Model parameters are identified by using a least-squares fitting procedure, thus obtaining an optimal estimate of the activation time and of the shape of the pupil response to the stimulation. Results indicate the model adequately represents the curve shape; despite the presence of artifacts, that hinder the fitting procedure, a significant difference in the time constants of the model of controls and of patients is present.
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