por itaca@itaca | 18 Nov, 2024 | Projects COR, Sin categoría
High precision non-invasive electroanatomical cardiac mapping based on artificial intelligence to guide protontherapy cardiac ablation (Proton-ECGI) Hypothesis: The personalization of high-precision, non-invasive cardiac digital twins based on imaging and real-time...
por itaca@itaca | 18 Nov, 2024 | Projects COR, Sin categoría
ECGI Precision Imaging for Cardiac Arrhythmias. Mapping beyond the epicardium (EPICA+) Problem to Address: Improving treatment for Cardiac Arrhythmia, which affects more than 10 million patients in Europe, is identified as a critical goal in the Strategic Research...
por jjiniesta@itaca | 10 Ene, 2024 | COR, Projects COR
As the global population ages, the prevalence of comorbidities and health-deteriorating diseases increases, impacting the overall well-being and quality of life. In individuals aging normally, without severe diseases or comorbidities, chronological and biological age...
por jjiniesta@itaca | 10 Ene, 2024 | COR, Projects COR
The hypothesis of this project is rooted in the development of a tool that, by combining ventricular electrical activity, the relationship with signals measured on the patient’s torso, and its correlation with the ECGi solution, yields an approximation of the...
por jjiniesta@itaca | 10 Ene, 2024 | COR, Projects COR
The goal of CARE-ECGI is to develop a non-invasive mapping system that allows to display the ventricular electrical activity on the heart in real time to support the pacemaker treatment. The CARE-ECGI consortium will integrate Corify Care’s electrocardiographic...
por jjiniesta@itaca | 10 Ene, 2024 | COR, Projects COR
The SAVE-COR project will introduce a new solution to identify the cardiac region where a patient’s arrhythmia originates. SAVE-COR stands for the stratification of atrial and ventricular arrhythmias based on electrocardiographic imaging. SAVE-COR’s solution, ACORYS®,...