A Real-Time Energy Monitoring System for an MRI Hybrid Ablation System.

Gerlach, Thomas; Shaik, Nashwa; Hubmann, Max Joris; Prier, Marcus; Pannicke, Enrico; Hensen, Bennet; Wacker, Frank; Speck, Oliver; Vick, Ralf

doi:10.1109/EMBC48229.2022.9870997

by Thomas Gerlach, Nashwa Shaik, Max Joris Hubmann, Marcus Prier, Enrico Pannicke, Bennet Hensen, Frank Wacker, Oliver Speck, Ralf Vick

Abstract:

The MRI hybrid ablation system is an approach to use the MR (magnetic resonance) scanner's radiofrequency amplifier itself as power source for ablation. Hereby, an electrode is connected to the MR internal radiofrequency amplifier. An average RF power is provided through a train of short RF pulses, which is sufficient to thermally destroy tissue. However, ablation with too high power values can cause tissue carbonizations, thus impeding the ablation procedure. Therefore, monitoring of the energy and the power absorbed inside the tissue is necessary. For this purpose, a measurement system was designed to measure the energy applied to the tissue when using the concept of an MRI hybrid ablation system. The system consists of a dual-directional coupler, RF-to-RMS sensors, and a microcontroller. The gradient calculation of the measured energy curve provides information about the absorbed RF power in the tissue. Validation measurements of the system were performed and compared with measurements from the MR-internal power measurement system. The energy monitoring system was also tested in an ablation experiment with ex-vivo animal tissue using the MRI hybrid ablation system. The measurements showed that the applied RF power can be monitored in real-time. It has been shown that the mean RF power absorbed in the patient decreased during an ablation procedure due to an occurring impedance mismatch and tissue changes. In further work, the influence of the monitoring system on the quality of the MR images should be investigated. Clinical relevance- This paper demonstrates an energy monitoring system for an RF ablation system, which can be used inside an MR environment.

Reference:

A Real-Time Energy Monitoring System for an MRI Hybrid Ablation System. (Thomas Gerlach, Nashwa Shaik, Max Joris Hubmann, Marcus Prier, Enrico Pannicke, Bennet Hensen, Frank Wacker, Oliver Speck, Ralf Vick), In Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference, volume 2022, 2022.

Bibtex Entry:

@article{gerlach_real-time_2022,
	title = {A {Real}-{Time} {Energy} {Monitoring} {System} for an {MRI} {Hybrid} {Ablation} {System}.},
	volume = {2022},
	issn = {2694-0604 2375-7477},
	doi = {10.1109/EMBC48229.2022.9870997},
	abstract = {The MRI hybrid ablation system is an approach to use the MR (magnetic resonance)  scanner's radiofrequency amplifier itself as power source for ablation. Hereby,  an electrode is connected to the MR internal radiofrequency amplifier. An average  RF power is provided through a train of short RF pulses, which is sufficient to  thermally destroy tissue. However, ablation with too high power values can cause  tissue carbonizations, thus impeding the ablation procedure. Therefore,  monitoring of the energy and the power absorbed inside the tissue is necessary.  For this purpose, a measurement system was designed to measure the energy applied  to the tissue when using the concept of an MRI hybrid ablation system. The system  consists of a dual-directional coupler, RF-to-RMS sensors, and a microcontroller.  The gradient calculation of the measured energy curve provides information about  the absorbed RF power in the tissue. Validation measurements of the system were  performed and compared with measurements from the MR-internal power measurement  system. The energy monitoring system was also tested in an ablation experiment  with ex-vivo animal tissue using the MRI hybrid ablation system. The measurements  showed that the applied RF power can be monitored in real-time. It has been shown  that the mean RF power absorbed in the patient decreased during an ablation  procedure due to an occurring impedance mismatch and tissue changes. In further  work, the influence of the monitoring system on the quality of the MR images  should be investigated. Clinical relevance- This paper demonstrates an energy  monitoring system for an RF ablation system, which can be used inside an MR  environment.},
	language = {eng},
	journal = {Annual International Conference of the IEEE Engineering in Medicine and Biology  Society. IEEE Engineering in Medicine and Biology Society. Annual International  Conference},
	author = {Gerlach, Thomas and Shaik, Nashwa and Hubmann, Max Joris and Prier, Marcus and Pannicke, Enrico and Hensen, Bennet and Wacker, Frank and Speck, Oliver and Vick, Ralf},
	month = jul,
	year = {2022},
	pmid = {36086647},
	keywords = {*Catheter Ablation/methods, Amplifiers, Electronic, Animals, Arrhythmias, Cardiac, Electrodes, Magnetic Resonance Imaging/methods, Radio Waves},
	pages = {5016--5020}
}