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Four-dimensional optoacoustic monitoring of tissue heating with medium intensity focused ultrasound

thermal treatment monitoring
optoacoustic tomography
photoacoustic imaging temperature monitoring
therapeutic ultrasound
Francisco Javier Oyaga Landa, Silvia Ronda Penacoba, Francisco Montero de Espinosa, Daniel Razansky, Xosé Luís Deán- Ben
Ultrasonics. Available online 27 November 2018
http://dx.doi.org/10.1016/j.ultras.2018.11.011

Medium-intensity focused ultrasound (MIFU) concerns therapeutic ultrasound interventions aimed at stimulating physiological mechanisms to reinforce healing responses without reaching temperatures that can cause permanent tissue damage. The therapeutic outcome is strongly affected by the temperature distribution in the treated region and its accurate monitoring represents an unmet clinical need. In this work, we investigate on the capacities of four-dimensional optoacoustic tomography to monitor tissue heating with MIFU. Calibration experiments in a tissue-mimicking phantom have confirmed that the optoacoustically-estimated temperature variations accurately match the simultaneously acquired thermocouple readings. The performance of the suggested approach in real tissues was further shown with bovine muscle samples. Volumetric temperature maps were rendered in real time, allowing for dynamic monitoring of the ultrasound focal region, estimation of the peak temperature and the size of the heat-affected volume.

Acknowledgements

The authors acknowledge support from the German Research Foundation (DFG) under Research Grant RA 1848/5-1 (D.R.) and the Spanish Ministry of Economy and Competitiveness under project DPI2016-80254-R (F.M.).

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