Disturbing effect of intra-tissue temperature sensors in pre-clinical experimental studies of radiofrequency cardiac ablation: A computer-based modeling study
View/ Open
Date
2023-04-11Author
Cuenca-Dacal, Luis
Berjano, Enrique
González-Suárez, Ana
Pérez, Juan J.
Metadata
Show full item recordUsage
This item's downloads: 26 (view details)
Cited 0 times in Scopus (view citations)
Recommended Citation
Cuenca-Dacal, Luis, Berjano, Enrique, González-Suárez, Ana, & Pérez, Juan J. (2023). Disturbing Effect of Intra-Tissue Temperature Sensors in Pre-Clinical Experimental Studies of Radiofrequency Cardiac Ablation: A Computer-Based Modeling Study. Processes, 11(4), 1168. https://doi.org/10.3390/pr11041168
Published Version
Abstract
Background: Preclinical studies on radiofrequency (RF) cardiac ablation (RFCA) use very small temperature sensors in specific positions in the tissue subjected to RF heating. Despite the sensors¿ small size, the proximity to the ablation electrode and the extremely high thermal gradient around the electrode means that the presence of the temperature sensors could distort the temperatures recorded. Our objective was to assess the thermal impact of intra-tissue temperature sensors during RFCA. Methods: 3D RFCA models were built including different temperature sensors based on fiber optics and T-type thermocouples. Constant power ablation was simulated for 10 s. Results: The results showed that the disturbance caused by the presence of the T-type thermocouples was considerably greater (one order of magnitude) than that caused by the optical fibers. The closer the sensor was to the ablation electrode, the greater the greater the disturbance was and the more it increased with time in sensors more than 3 mm deep. The fiber optic measurements always slightly underestimated (