Search Results for author: Julia Camps

Found 6 papers, 1 papers with code

Personalized Topology-Informed 12-Lead ECG Electrode Localization from Incomplete Cardiac MRIs for Efficient Cardiac Digital Twins

no code implementations25 Aug 2024 Lei LI, Hannah Smith, Yilin Lyu, Julia Camps, Blanca Rodriguez, Abhirup Banerjee, Vicente Grau

However, current studies commonly rely on additional acquisition of torso imaging and manual/semi-automatic methods for ECG electrode localization.

Solving the Inverse Problem of Electrocardiography for Cardiac Digital Twins: A Survey

1 code implementation17 Jun 2024 Lei LI, Julia Camps, Blanca Rodriguez, Vicente Grau

Cardiac digital twins (CDTs) are personalized virtual representations used to understand complex cardiac mechanisms.

Anatomy Computational Efficiency

Towards Enabling Cardiac Digital Twins of Myocardial Infarction Using Deep Computational Models for Inverse Inference

no code implementations10 Jul 2023 Lei LI, Julia Camps, Zhinuo, Wang, Abhirup Banerjee, Marcel Beetz, Blanca Rodriguez, Vicente Grau

In this work, we investigate the feasibility of inferring myocardial tissue properties from the electrocardiogram (ECG) within a CDT platform.

Influence of Myocardial Infarction on QRS Properties: A Simulation Study

no code implementations4 Apr 2023 Lei LI, Julia Camps, Zhinuo, Wang, Abhirup Banerjee, Blanca Rodriguez, Vicente Grau

However, the influence of various MI properties on the QRS is not intuitively predictable. In this work, we have systematically investigated the effects of 17 post-MI scenarios, varying the location, size, transmural extent, and conductive level of scarring and border zone area, on the forward-calculated QRS.

Deep Computational Model for the Inference of Ventricular Activation Properties

no code implementations8 Aug 2022 Lei LI, Julia Camps, Abhirup Banerjee, Marcel Beetz, Blanca Rodriguez, Vicente Grau

Cardiac digital twins can provide non-invasive characterizations of cardiac functions for individual patients, and therefore are promising for the patient-specific diagnosis and therapy stratification.

Anatomy

Inference of ventricular activation properties from non-invasive electrocardiography

no code implementations28 Oct 2020 Julia Camps, Brodie Lawson, Christopher Drovandi, Ana Minchole, Zhinuo Jenny Wang, Vicente Grau, Kevin Burrage, Blanca Rodriguez

We demonstrate results from our inference method on a cohort of twenty virtual subjects with cardiac volumes ranging from 74 cm3 to 171 cm3 and considering low versus high resolution for the endocardial discretisation (which determines possible locations of the earliest activation sites).

Decision Making Dynamic Time Warping

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