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DF-DiffVSR: Deformable Field-Driven Diffusion Model for Inter-Slice Continuity Enhancement in Medical Volume

Can Wang, Min Liu, Qinghao Liu

    IEEE Journal of Biomedical and Health Informatics
    |April 10, 2026
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    Summary
    This summary is machine-generated.

    This study introduces DF-DiffVSR, a new diffusion model for medical volume super-resolution. It enhances 3D imaging by improving inter-slice continuity and detail recovery, crucial for accurate diagnosis.

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    Area of Science:

    • Medical Imaging
    • Computer Vision
    • Artificial Intelligence

    Background:

    • Medical volumetric imaging is vital for diagnosis but faces challenges like anisotropic resolution, hindering lesion detection and 3D visualization.
    • Current super-resolution methods struggle with limited receptive fields, failing to capture inter-slice correlations and maintain continuity.

    Purpose of the Study:

    • To develop an advanced medical volume super-resolution technique that overcomes limitations of existing methods.
    • To enhance inter-slice continuity and detail recovery in medical volumetric data.

    Main Methods:

    • Proposed DF-DiffVSR, a deformable field-enhanced diffusion model integrating optical flow principles.
    • Introduced a Deformable Field Extraction (DFE) module to learn inter-slice motion and improve through-plane continuity.
    • Developed a Multiscale Large Kernel Convolution (MLKC) module to expand receptive fields and capture global context.

    Main Results:

    • DF-DiffVSR achieved state-of-the-art (SOTA) performance on RPLHR-CT and IXI-T2 datasets.
    • Demonstrated superior performance over sub-optimal methods, with improvements of 0.732 dB and 0.214 dB in PSNR, respectively.
    • Showcased enhanced inter-slice continuity and fine-grained detail recovery.

    Conclusions:

    • DF-DiffVSR effectively addresses limitations in medical volume super-resolution.
    • The model significantly improves structural continuity and detail preservation in 3D medical imaging.
    • This advancement holds promise for more precise diagnosis and improved 3D visualization in medical applications.