Aleman-Gomez, YasserGriffa, AlessandraHoude, Jean-ChristopheNajdenovska, ElenaMagon, StefanoCuadra, Meritxell BachDescoteaux, MaximeHagmann, Patric2022-09-122022-09-122022-09-122022-08-2310.1038/s41597-022-01624-8https://infoscience.epfl.ch/handle/20.500.14299/190757WOS:000843523500001The human brain is a complex system that can be efficiently represented as a network of structural connectivity. Many imaging studies would benefit from such network information, which is not always available. In this work, we present a whole-brain multi-scale structural connectome atlas. This tool has been derived from a cohort of 66 healthy subjects imaged with optimal technology in the setting of the Human Connectome Project. From these data we created, using extensively validated diffusion-data processing, tractography and gray-matter parcellation tools, a multi-scale probabilistic atlas of the human connectome. In addition, we provide user-friendly and accessible code to match this atlas to individual brain imaging data to extract connection-specific quantitative information. This can be used to associate individual imaging findings, such as focal white-matter lesions or regional alterations, to specific connections and brain circuits. Accordingly, network-level consequences of regional changes can be analyzed even in absence of diffusion and tractography data. This method is expected to broaden the accessibility and lower the yield for connectome research.Multidisciplinary SciencesScience & Technology - Other Topicsbrain white-matterin-diffusion mriquantitative assessmentspatial normalizationtensortractographytemplatesegmentationvalidationA multi-scale probabilistic atlas of the human connectometext::journal::journal article::research article