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    Active Diffusion Matching (ADM) accurately aligns Standard Fundus Images (SFIs) and Ultra-Widefield Fundus Images (UWFIs). This novel method improves cross-modal image analysis for better clinical applications in ophthalmology.

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    Area of Science:

    • Ophthalmology
    • Medical Imaging
    • Computer Vision

    Background:

    • Aligning Standard Fundus Images (SFIs) and Ultra-Widefield Fundus Images (UWFIs) is challenging due to differences in viewing range and retinal appearance.
    • Existing image alignment techniques lack the accuracy needed for effective cross-modal analysis.

    Purpose of the Study:

    • To develop a specialized method for accurate alignment of SFIs and UWFIs.
    • To address the unaddressed challenge of cross-modal fundus image alignment.

    Main Methods:

    • Proposed Active Diffusion Matching (ADM), a novel cross-modal alignment technique.
    • Integrated two interdependent score-based diffusion models using an iterative Langevin Markov chain.
    • Employed custom sampling strategies for enhanced adaptability to input image pairs.

    Main Results:

    • ADM achieved state-of-the-art alignment accuracy on both private SFI-UWFI and public SFI-SFI datasets.
    • Demonstrated significant improvements in mean Area Under the Curve (mAUC) by 5.2 points on the private dataset and 0.4 points on the public dataset compared to existing methods.

    Conclusions:

    • ADM effectively bridges the alignment gap between SFIs and UWFIs, offering a robust solution for cross-modal image alignment.
    • The method's joint optimization of global and local alignment enhances its utility.
    • ADM has the potential to transform integrated SFI and UWFI analysis, improving clinical utility, enabling learning-based enhancements, and potentially enhancing diagnostic accuracy and patient outcomes in ophthalmology.