Optimization of tissue physical parameters for accurate temperature estimation from finite-element simulation of radiofrequency ablation
Author:
Funder
National Institutes of Health
Publisher
IOP Publishing
Subject
Radiology Nuclear Medicine and imaging,Radiological and Ultrasound Technology
Link
http://stacks.iop.org/0031-9155/60/i=19/a=N345/pdf
Reference27 articles.
1. Three-dimensional spatial and temporal temperature imaging in gel phantoms using backscattered ultrasound
2. Parameter Estimation for Personalization of Liver Tumor Radiofrequency Ablation
3. Theoretical modeling for radiofrequency ablation: state-of-the-art and challenges for the future
4. Optimizing Electrode Placement Using Finite-Element Models in Radiofrequency Ablation Treatment Planning
5. Non-invasive ultrasound-based temperature imaging for monitoring radiofrequency heating—phantom results
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1. Computational Modeling of Thermal Ablation Zones in the Liver: A Systematic Review;Cancers;2023-12-01
2. Model-Based Thermometry for Laser Ablation Procedure Using Kalman Filters and Sparse Temperature Measurements;IEEE Transactions on Biomedical Engineering;2022-09
3. Dependence of ultrasound echo decorrelation on local tissue temperature duringex vivoradiofrequency ablation;Physics in Medicine and Biology;2016-03-04
4. Simulation of temperature field for temperature-controlled radio frequency ablation using a hyperbolic bioheat equation and temperature-varied voltage calibration: a liver-mimicking phantom study;Physics in Medicine and Biology;2015-11-19
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