The present invention is framed within the field of non-invasive estimation of epicardial electrical activity. The present invention defines a method for the automatic and non-invasive determination of the location of at least one portion of a subject's heart within the subject's torso. The present invention also defines a method for obtaining a three-dimensional model of at least one portion of the subject's heart.
A method for determining the cardiac potential of a subject includes providing as input data a torso model of the subject comprising a plurality of nodes, a cardiac model of the subject comprising a plurality of nodes, a cardiac activation sequence at the plurality of nodes of the cardiac model, and body surface potentials recorded on the torso of the subject; assigning to each node of the cardiac model a time-dependent weighting regularization coefficient based on the cardiac activation sequence; obtaining estimated cardiac potentials; obtaining estimated body surface potentials; determining a correlation coefficient between the estimated body surface potentials and the body surface potentials provided as input data; and determining if a predefined stop condition is reached based on the determined correlation coefficient.
A61B 5/343 - Indication de la répartition des potentiels électriques
A61B 5/35 - Détection de paramètres spécifiques du cycle de l'électrocardiogramme par comparaison à des gabarits
G16H 10/60 - TIC spécialement adaptées au maniement ou au traitement des données médicales ou de soins de santé relatives aux patients pour des données spécifiques de patients, p. ex. pour des dossiers électroniques de patients
The present invention belongs to the field of computer implemented methods for the quantification of arrhythmia complexity.
The present invention belongs to the field of computer implemented methods for the quantification of arrhythmia complexity.
The present invention is particularly related to a method for obtaining the reproducibility score (RS) of any type of cardiac arrhythmia.
A61B 5/364 - Détection d'intervalle ECG anormal, p. ex. des extrasystoles ou des battements cardiaques ectopiques
A61B 5/367 - Études électrophysiologiques [EEP], p. ex. cartographie de l’activation électrique ou cartographie électroanatomique
G16H 10/60 - TIC spécialement adaptées au maniement ou au traitement des données médicales ou de soins de santé relatives aux patients pour des données spécifiques de patients, p. ex. pour des dossiers électroniques de patients
G16H 50/30 - TIC spécialement adaptées au diagnostic médical, à la simulation médicale ou à l’extraction de données médicalesTIC spécialement adaptées à la détection, au suivi ou à la modélisation d’épidémies ou de pandémies pour le calcul des indices de santéTIC spécialement adaptées au diagnostic médical, à la simulation médicale ou à l’extraction de données médicalesTIC spécialement adaptées à la détection, au suivi ou à la modélisation d’épidémies ou de pandémies pour l’évaluation des risques pour la santé d’une personne
4.
METHODS TO DETERMINE THE MORPHOLOGY AND THE LOCATION OF A HEART WITHIN A TORSO
The present invention is framed within the field of non-invasive estimation of epicardial electrical activity. The present invention defines a method for the automatic and non- invasive determination of the location of at least one portion of a subject's heart within the subject's torso. The present invention also defines a method for obtaining a three- dimensional model of at least one portion of the subject's heart.
Diagnostic, examination, and monitoring equipment;
diagnostic instruments for medical use; diagnostic apparatus
for medical purposes; medical apparatus and devices; cardiac
arrhythmia diagnostic, examination, and monitoring devices;
surgical apparatus and instruments; surgical devices and
instruments.
6.
SENSOR ARRAY AND SENSOR ARRAY SYSTEM FOR SENSING ELECTRICAL ACTIVITY
A device for measuring electrical potentials of a patient's body part, includes substrate nodes made of a flexible material and configured to be disposed on the patient's torso, wherein some pairs of substrate nodes are interconnected by straight portions of flexible material. The substrate nodes and straight portions of flexible material form a flexible substrate. The device includes electrodes, with each electrode disposed on a respective substrate node; and at least one connector. Each electrode is connected to the connector through a respective conductive path. Each conductive path is embedded in the flexible substrate formed by substrate nodes and straight portions. Only some straight portions connecting two substrate nodes have an embedded conductive path. The device removes one or more substrate nodes and corresponding electrodes by cutting portions which connect the substrate nodes with the remaining substrate nodes in the device, without interrupting the conductive paths of the remaining electrodes.
Medical instrument for cardiovascular diagnostics; medical apparatus and instruments for treating cardiovascular disease; medical apparatus and instruments for use in cardiovascular procedures; computerized medical recording and analysis apparatus for the diagnosis and treatment of arrhythmias; medical devices, namely, non-invasive cardiovascular devices for the assessment of cardiac arrhythmia; cardiac arrhythmia diagnostic, examination, and monitoring devices; medical apparatus and instruments for use in surgery; surgical apparatus and instruments; surgical devices and instruments
Diagnostic, examination, and monitoring equipment; diagnostic instruments for medical use; diagnostic apparatus for medical purposes; medical apparatus and devices; cardiac arrhythmia diagnostic, examination, and monitoring devices; surgical apparatus and instruments; surgical devices and instruments.
The present invention belongs to the field of computer implemented methods for the quantification of arrhythmia complexity. The present invention is particularly related to a method for obtaining the reproducibility score (RS) of any type of cardiac arrhythmia.
A device (1-4, 1', 2') for measuring electrical potentials of a body part of a patient, comprising: a plurality of substrate nodes (5) made of a flexible material, the plurality of substrate nodes (5) being configured to be disposed on the torso of the patient, wherein some pairs of substrate nodes of the plurality of substrate nodes (5) are interconnected by straight portions (6) of flexible material, the plurality of substrate nodes (5) and the straight portions (6) of flexible material forming a flexible substrate; a plurality of electrodes (7), wherein each electrode of the plurality of electrodes (7) is disposed on a respective substrate node (5) of the plurality of substrate nodes (5); and at least one connector (8). Each electrode is connected to the at least one connector (8) through a respective conductive path. Each conductive path is embedded in the flexible substrate formed by substrate nodes and straight portions. Only some straight portions (6) connecting two substrate nodes (5) have an embedded conductive path. The device (1-4, 1', 2') is configured to remove one or more substrate nodes (5) and corresponding electrodes (7) by cutting portions (6) which connect the one or more substrate nodes (5) with the remaining substrate nodes in the device, without interrupting the conductive paths of the remaining electrodes in the device.
