Feasibility of using Nakagami distribution in evaluating the formation of ultrasound-induced thermal lesions
Autor: | Xing Wang, Fanyu Zhou, Min Wei, Siyuan Zhang, Mingxi Wan, Supin Wang, Quanyou Fu |
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Rok vydání: | 2012 |
Předmět: |
Hot Temperature
Materials science Acoustics and Ultrasonics Phantoms Imaging Bioacoustics business.industry Transducers Ultrasound Nakagami distribution Sound power Imaging phantom Optics Arts and Humanities (miscellaneous) Acoustic emission Cavitation Thermal Feasibility Studies High-Intensity Focused Ultrasound Ablation Scattering Radiation business Statistical Distributions |
Zdroj: | The Journal of the Acoustical Society of America. 131:4836-4844 |
ISSN: | 0001-4966 |
DOI: | 10.1121/1.4711005 |
Popis: | The acoustic posterior shadowing effects of bubbles influence the accuracy for defining the location and range of ablated thermal lesions during focused ultrasound surgery when using ultrasonic monitoring imaging. This paper explored the feasibility of using Nakagami distribution to evaluate the ablated region induced by focused ultrasound exposures at different acoustic power levels in transparent tissue-mimicking phantoms. The mean value of the Nakagami parameter m was about 0.5 in the cavitation region and increased to around 1 in the ablated region. Nakagami images were not subject to significant shadowing effects of bubbles. Ultrasound-induced thermal lesions observed in the photos and Nakagami images were overshadowed by bubbles in the B-mode images. The lesion size predicted in the Nakagami images was smaller than that predicted in the photos due to the sub resolvable effect of Nakagami imaging at the interface. This preliminary study on tissue-mimicking phantom suggested that the Nakagami parameter m may have the potential use in evaluating the formation of ultrasound-induced thermal lesion when the shadowing effect of bubbles is strong while the thermal lesion was small. Further studies in vivo and in vitro will be needed to evaluate the potential application. |
Databáze: | OpenAIRE |
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