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Non-invasive simulated electrical and measured mechanical indices predict response to cardiac resynchronization therapy

Authors :
Orod Razeghi
Steven A. Niederer
Gernot Plank
Marina Strocchi
Justin Gould
Jonathan M. Behar
Vishal Mehta
Jose Alonso Solis-Lemus
Christopher A. Rinaldi
Mark K. Elliott
Angela W.C. Lee
Baldeep S. Sidhu
Source :
Computers in Biology and Medicine. 138:104872
Publication Year :
2021
Publisher :
Elsevier BV, 2021.

Abstract

Background Cardiac Resynchronization Therapy (CRT) in dyssynchronous heart failure patients is ineffective in 20–30% of cases. Sub-optimal left ventricular (LV) pacing location can lead to non-response, thus there is interest in LV lead location optimization. Invasive acute haemodynamic response (AHR) measurements have been used to optimize the LV pacing location during CRT implantation. In this manuscript, we aim to predict the optimal lead location (AHR>10%) with non-invasive computed tomography (CT) based measures of cardiac anatomical and mechanical properties, and simulated electrical activation times. Methods Non-invasive measurements from CT images and ECG were acquired from 34 patients indicated for CRT upgrade. The LV lead was implanted and AHR was measured at different pacing sites. Computer models of the ventricles were used to simulate the electrical activation of the heart, track the mechanical motion throughout the cardiac cycle and measure the wall thickness of the LV on a patient specific basis. Results We tested the ability of electrical, mechanical and anatomical indices to predict the optimal LV location. Electrical (RV-LV delay) and mechanical (time to peak contraction) indices were correlated with an improved AHR, while wall thickness was not predictive. A logistic regression model combining RV-LV delay and time to peak contraction was able to predict positive response with 70 ± 11% accuracy and AUROC curve of 0.73. Conclusion Non-invasive electrical and mechanical indices can predict optimal epicardial lead location. Prospective analysis of these indices could allow clinicians to test the AHR at fewer pacing sites and reduce time, costs and risks to patients.

Details

ISSN :
00104825
Volume :
138
Database :
OpenAIRE
Journal :
Computers in Biology and Medicine
Accession number :
edsair.doi.dedup.....e570df529a0ff5d0abfed0b64e3e9b53
Full Text :
https://doi.org/10.1016/j.compbiomed.2021.104872