Coupled Personalisation of Electrophysiology Models for Simulation of Induced Ischemic Ventricular Tachycardia
Despite recent efforts in cardiac electrophysiology modelling, there is still a strong need to make macroscopic models usable in planning and assistance of the clinical procedures. This requires model personalisation i.e. estimation of patient-specific model parameters and computations compatible with clinical constraints. Fast macroscopic models allow a quick estimation of the tissue conductivity, but are often unreliable in prediction of arrhythmias. On the other side, complex biophysical models are quite expensive for the tissue conductivity estimation, but are well suited for arrhythmia predictions. Here we present a coupled personalisation framework, which combines the benefits of the two models. A fast Eikonal (EK) model is used to estimate the conductivity parameters, which are then used to set the parameters of a biophysical model, the Mitchell-Schaeffer (MS) model. Additional parameters related to Action Potential Duration (APD) and APD restitution curves for the tissue are estimated for the MS model. This framework is applied to a clinical dataset provided with an hybrid X-Ray/MR imaging on an ischemic patient. This personalised MS Model is then used for in silico simulation of clinical Ventricular Tachycardia (VT) stimulation protocol to predict the induction of VT. This proof of concept opens up possibilities of using VT induction modelling directly in the intervention room, in order to plan the radio-frequency ablation lines.
J.Relan P.Chinchapatnam M.Sermesant K.Rhode H.Delingette R.Razavi N.Ayache
Asclepios Research Project, INRIA, Sophia Antipolis, France Division of Imaging Sciences, St.Thomas Hospital, King’s College London, UK Asclepios Research Project, INRIA, Sophia Antipolis, FranceDivision of Imaging Sciences, St.Thomas H
国际会议
北京
英文
420-428
2010-09-01(万方平台首次上网日期,不代表论文的发表时间)