Therapeutic Quadrisected Annular Array for Improving Magnetic Resonance Compatibility

Autor:	Younghoon Kim, Minseok Koo, Jinhyoung Park, Sun Ah Park, Hyunkyung Na, Seung-Kyun Lee, Taewon Choi, Seoyun Chang
Rok vydání:	2021
Předmět:	Focal point Materials science Magnetic Resonance Spectroscopy medicine.diagnostic_test business.industry Phantoms Imaging Transducers Biomedical Engineering Brain Magnetic resonance imaging Magnetic Resonance Imaging Imaging phantom Transducer Optics Flip angle Distortion medicine Ultrasonic sensor business Beam (structure)
Zdroj:	IEEE transactions on bio-medical engineering. 69(1)
ISSN:	1558-2531
Popis:	Objective Focused ultrasound has been applied in brain therapeutics. Although focusing ultrasonic beams on multiple arbitrary regions under the guidance of magnetic resonance imaging(MRI) is needed for precise treatments, current therapeutic transducers with large pitch sizes have been optimized to focus on deep brain regions. While annular arrays can adjust the beam foci from cortical to deep regions, their circular shape may generate eddy current-induced magnetic flux during MRI. In this study, a quadrisected annular array is proposed to address these limitations. Methods Conventional and quadrisected annular arrays with three elements were implemented by loading the electrode patterns onto an 850kHz 1-3 composite PZT disc, with a diameter of 31mm, including three rings. MR compatibilities were demonstrated by imaging an MRI phantom with pulse sequences for B0 and B1 mapping and spin-echo imaging. Acoustic beam profiles, with and without a macaque monkey skull, were measured. A quadrisected transducer was also used to open the blood-brain barrier(BBB). Results The flip angle distortion improved by 20% in spin-echo MR imaging. The acoustic beam distortions shifting the focal point from 36 to 41mm and elongating the focal zone from 10 to 15 mm could be recovered to nearly the original values. BBB openings in the hippocampus and basal region were also demonstrated. Conclusion The MR compatibility was improved by the increased resistance of the electrodes in the quadrisected array maintaining dynamic focusing capabilities. Significance The quadrisected annular design can be a fundamental structure for a larger MR-compatible segmented array transducer generating multiple acoustic foci.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::063c04ed0439946620018922acc5fa31 https://pubmed.ncbi.nlm.nih.gov/34156933 Zobrazit plný text záznamu