Algorithm for real-time prediction of neurally mediated syncope integrating indexes of autonomic modulation
Authors
Abstract
Neurally mediated syncope (NMS) is a transient and self-limited loss of consciousness that affects all ages and is associated with high rates of falls and hospitalizations. In this study we propose a new algorithm for real-time prediction of NMS that integrates indexes of autonomic modulation among other parameters, which is based on the analysis of the electrocardiogram (ECG) and photoplethysmogram (PPG) alone. ECG and PPG signals were acquired from 43 patients with suspected NMS, during scheduled diagnostic headup tilt table (HUTT) tests. Heart rate variability (HRV) indexes were integrated in a NMS prediction algorithm comprising surrogates of chronotropic, inotropic, blood pressure and vascular tone changes. The proposed algorithm was validated using a three-way data split approach. HRV indexes improved the algorithm performance in both the train/validation phase and the test phase, showing the importance of autonomic modulation indexes in real-time prediction of NMS.
Keywords
electrocardiography;medical signal detection;photoplethysmography;ECG signal acquisition;PPG signal acquisition;autonomic modulation;blood pressure;chronotropic changes;electrocardiogram;heart rate variability index;inotropic changes;neurally mediated syncope integrating index;photoplethysmogram;real-time prediction;scheduled diagnostic head-up tilt table tests;three-way data split approach;vascular tone changes;Heart rate variability;Indexes;Lead;Robustness;Time measurement
Related Project
HeartCycle
Conference
2015 Computing in Cardiology Conference (CinC), September 2015
DOI
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