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    This study introduces a new method for in vivo temperature imaging using magnetic particle imaging (MPI) and spectroscopy (MPS). The approach improves accuracy by calibrating for the in vivo environment, reducing errors by over 17%.

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    Area of Science:

    • Biomedical Engineering
    • Medical Imaging
    • Nanotechnology

    Background:

    • Magnetic Particle Imaging (MPI) offers noninvasive temperature mapping without depth limits.
    • Current MPI applications are hindered by calibration challenges, including environmental mismatch and infeasibility for in vivo use.
    • Accurate temperature monitoring is crucial for applications like magnetic hyperthermia.

    Purpose of the Study:

    • To develop a novel in vivo temperature imaging method using a dual-mode MPS/MPI system.
    • To address limitations in current MPI calibration strategies for in vivo environments.
    • To enhance the accuracy and stability of temperature mapping for clinical applications.

    Main Methods:

    • Utilized magnetic particle spectroscopy (MPS) to analyze harmonic phase responses of magnetic nanoparticles (MNPs) in vivo and in vitro.
    • Developed a multi-layer perceptron (MLP) based calibration strategy to account for non-ideal temperature-phase relationships.
    • Integrated multi-parameter information into a unified network for robust temperature reconstruction.

    Main Results:

    • The proposed method reduced in vivo temperature reconstruction error by approximately 17.24% compared to conventional methods.
    • Achieved an average absolute temperature error below 1.257 °C in comprehensive experiments.
    • Demonstrated successful in vivo temperature imaging with improved accuracy and stability.

    Conclusions:

    • The novel dual-mode MPS/MPI system provides a feasible and accurate solution for in vivo temperature imaging.
    • The proposed calibration strategy effectively overcomes environmental mismatch and non-ideal signal deviations.
    • This advancement offers critical technical support for temperature-sensitive medical applications, particularly magnetic hyperthermia.