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Real-Time Heterogeneous Helical Wave Spectrum Method for Transabdominal Passive Acoustic Mapping.

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    Focused ultrasound (FUS) therapy uses passive acoustic mapping (PAM) to monitor cavitation. A new method corrects sound speed variations in the abdominal wall, improving image quality and cavitation source localization for safer FUS treatments.

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    Area of Science:

    • Medical Imaging
    • Acoustic Physics
    • Ultrasound Therapy

    Background:

    • Passive acoustic mapping (PAM) with convex arrays monitors cavitation in focused ultrasound (FUS) therapy.
    • Speed-of-sound (SoS) heterogeneity in the abdominal wall causes phase aberration, degrading PAM image quality and FUS therapy safety.

    Purpose of the Study:

    • To develop a method for correcting SoS heterogeneity in transabdominal PAM.
    • To improve the accuracy of cavitation source localization in FUS therapy.

    Main Methods:

    • Derived a general solution to the wave equation in SoS heterogeneous media.
    • Proposed the real-time heterogeneous helical wave spectrum (HHWS) method for transabdominal PAM.
    • Validated the HHWS method using in silico and in vitro experiments.

    Main Results:

    • The HHWS method demonstrated significant phase aberration correction.
    • Improved image quality and cavitation source localization accuracy compared to the HWS method.
    • Achieved real-time image reconstruction (tens of milliseconds) and dual-mode monitoring.

    Conclusions:

    • The HHWS method effectively accounts for SoS heterogeneity in transabdominal PAM.
    • HHWS enhances the safety, efficacy, and control of cavitation-based FUS therapies.
    • Real-time dual-mode monitoring is feasible for abdominal FUS applications.