Multi-modal analysis of genetically-related subjects using SIFT descriptors in brain MRI
This work addresses the challenge of comparing across multiple MRI modalities for brain fingerprinting in genetically-related subjects, representing an incremental advance in neuroimaging analysis.
The paper tackled the problem of lacking a framework for multi-modal MRI analysis by proposing a method using SIFT descriptors to measure subject similarity, demonstrating strong links between this measure and genetic proximity in 861 subjects from the Human Connectome Project.
So far, fingerprinting studies have focused on identifying features from single-modality MRI data, which capture individual characteristics in terms of brain structure, function, or white matter microstructure. However, due to the lack of a framework for comparing across multiple modalities, studies based on multi-modal data remain elusive. This paper presents a multi-modal analysis of genetically-related subjects to compare and contrast the information provided by various MRI modalities. The proposed framework represents MRI scans as bags of SIFT features, and uses these features in a nearest-neighbor graph to measure subject similarity. Experiments using the T1/T2-weighted MRI and diffusion MRI data of 861 Human Connectome Project subjects demonstrate strong links between the proposed similarity measure and genetic proximity.