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Please use this identifier to cite or link to this item: https://ahro.austin.org.au/austinjspui/handle/1/27806
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dc.contributor.authorDhollander, Thijs-
dc.contributor.authorClemente, Adam-
dc.contributor.authorSingh, Mervyn-
dc.contributor.authorBoonstra, Frederique-
dc.contributor.authorCivier, Oren-
dc.contributor.authorDuque, Juan Dominguez-
dc.contributor.authorEgorova, Natalia-
dc.contributor.authorEnticott, Peter-
dc.contributor.authorFuelscher, Ian-
dc.contributor.authorGajamange, Sanuji-
dc.contributor.authorGenc, Sila-
dc.contributor.authorGottlieb, Elie-
dc.contributor.authorHyde, Christian-
dc.contributor.authorImms, Phoebe-
dc.contributor.authorKelly, Claire-
dc.contributor.authorKirkovski, Melissa-
dc.contributor.authorKolbe, Scott-
dc.contributor.authorLiang, Xiaoyun-
dc.contributor.authorMalhotra, Atul-
dc.contributor.authorMito, Remika-
dc.contributor.authorPoudel, Govinda-
dc.contributor.authorSilk, Tim J-
dc.contributor.authorVaughan, David N-
dc.contributor.authorZanin, Julien-
dc.contributor.authorRaffelt, David-
dc.contributor.authorCaeyenberghs, Karen-
dc.date2021-07-21-
dc.date.accessioned2021-10-25T22:33:58Z-
dc.date.available2021-10-25T22:33:58Z-
dc.date.issued2021-11-01-
dc.identifier.citationNeuroImage 2021; 241: 118417en
dc.identifier.urihttps://ahro.austin.org.au/austinjspui/handle/1/27806-
dc.description.abstractDiffusion MRI has provided the neuroimaging community with a powerful tool to acquire in-vivo data sensitive to microstructural features of white matter, up to 3 orders of magnitude smaller than typical voxel sizes. The key to extracting such valuable information lies in complex modelling techniques, which form the link between the rich diffusion MRI data and various metrics related to the microstructural organization. Over time, increasingly advanced techniques have been developed, up to the point where some diffusion MRI models can now provide access to properties specific to individual fibre populations in each voxel in the presence of multiple "crossing" fibre pathways. While highly valuable, such fibre-specific information poses unique challenges for typical image processing pipelines and statistical analysis. In this work, we review the "Fixel-Based Analysis" (FBA) framework, which implements bespoke solutions to this end. It has recently seen a stark increase in adoption for studies of both typical (healthy) populations as well as a wide range of clinical populations. We describe the main concepts related to Fixel-Based Analyses, as well as the methods and specific steps involved in a state-of-the-art FBA pipeline, with a focus on providing researchers with practical advice on how to interpret results. We also include an overview of the scope of all current FBA studies, categorized across a broad range of neuro-scientific domains, listing key design choices and summarizing their main results and conclusions. Finally, we critically discuss several aspects and challenges involved with the FBA framework, and outline some directions and future opportunities.en
dc.language.isoeng
dc.subjectDiffusion MRIen
dc.subjectFibre densityen
dc.subjectFibre-bundle cross-sectionen
dc.subjectFixelen
dc.subjectFixel-Based Analysisen
dc.subjectMicrostructureen
dc.subjectStatistical analysisen
dc.subjectWhite matteren
dc.titleFixel-based Analysis of Diffusion MRI: Methods, Applications, Challenges and Opportunities.en
dc.typeJournal Articleen
dc.identifier.journaltitleNeuroImageen
dc.identifier.affiliationCardiff University Brain Research Imaging Centre (CUBRIC), School of Psychology, Cardiff University, Wales, United Kingdom..en
dc.identifier.affiliationThe Walter and Eliza Hall Institute of Medical Research, Melbourne, Victoria, Australiaen
dc.identifier.affiliationMelbourne School of Psychological Sciences, University of Melbourne, Melbourne, Victoria, Australiaen
dc.identifier.affiliationDevelopmental Imaging, Murdoch Children's Research Institute, Melbourne, Victoria, Australia.en
dc.identifier.affiliationDepartment of Neuroscience, Central Clinical School, Monash University, Prahran, Victoria, Australiaen
dc.identifier.affiliationDepartment of Paediatrics, Monash University, Melbourne, Victoria, Australiaen
dc.identifier.affiliationMonash Newborn, Monash Children's Hospital, Melbourne, Victoria, Australiaen
dc.identifier.affiliationThe Ritchie Centre, Hudson Institute of Medical Research, Melbourne, Victoria, Australiaen
dc.identifier.affiliationFlorey Institute of Neuroscience and Mental Health, University of Melbourne, Melbourne, Victoria, Australiaen
dc.identifier.affiliationMary MacKillop Institute for Health Research, Faculty of Health Sciences, Australian Catholic University, Melbourne, Victoria, Australiaen
dc.identifier.affiliationDepartment of Audiology and Speech Pathology, University of Melbourne, Melbourne, Victoria, Australiaen
dc.identifier.affiliationCognitive Neuroscience Unit, School of Psychology, Deakin University, Geelong, Victoria, Australiaen
dc.identifier.affiliationVictorian Infant Brain Studies (VIBeS), Murdoch Children's Research Institute, Melbourne, Victoria, Australiaen
dc.identifier.affiliationDevelopmental Imaging, Murdoch Children's Research Institute, Melbourne, Victoria, Australiaen
dc.identifier.affiliationDepartment of Paediatrics, University of Melbourne, Melbourne, Victoria, Australiaen
dc.identifier.affiliationNeurologyen
dc.identifier.affiliationSwinburne Neuroimaging, Swinburne University of Technology, Melbourne, Victoria, Australiaen
dc.identifier.doi10.1016/j.neuroimage.2021.118417en
dc.type.contentTexten
dc.identifier.pubmedid34298083
item.languageiso639-1en-
item.openairetypeJournal Article-
item.openairecristypehttp://purl.org/coar/resource_type/c_18cf-
item.fulltextNo Fulltext-
item.grantfulltextnone-
item.cerifentitytypePublications-
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