Editorial for the Special Issue on Harmonization Techniques for MRI

This editorial introduces the special issue on neuroimaging harmonization and situates its contributions within the broader methodological landscape of multi-site MRI analysis. As large-scale neuroimaging studies continue to aggregate data across scanners, protocols, and institutions, harmonization has become essential for reducing non-biological variability while preserving meaningful biological signals. We review the major classes of harmonization approaches, including statistical methods based on the ComBat family and deep learning methods that operate at the voxel level. We also review domain generalization strategies designed for previously unseen sites, and network-aware harmonization techniques that go beyond the voxel for connectivity and connectome data. Across these developments, several cross-cutting challenges emerge, including modality-specific performance, preservation of biological information, validation using traveling-subjects and large observational datasets, and the need for scalable, standardized, and privacy-preserving frameworks. Collectively, the articles in this special issue illustrate the rapid progress of the field and highlight that robust harmonization will be critical for enabling reproducible and generalizable discoveries in multi-site neuroimaging. • Large-scale neuroimaging studies require principled harmonization to remove inter-scanner variability without discarding or damaging the biological signal. • Statistical (ComBat-family) and deep-learning image-level methods each have complementary strengths depending on the modality and analytic goal. • Network-aware and domain-generalization approaches represent emerging frontiers for scalable, topology-preserving harmonization.