The BigBrainWarp toolbox for integration of BigBrain 3D histology with multimodal neuroimaging

被引:27
|
作者
Paquola, Casey [1 ,2 ]
Royer, Jessica [1 ]
Lewis, Lindsay B. [1 ]
Lepage, Claude [1 ]
Glatard, Tristan [3 ]
Wagstyl, Konrad [4 ]
DeKraker, Jordan [1 ,5 ]
Toussaint, Paule-J [1 ]
Valk, Sofie L. [6 ,7 ]
Collins, Louis [1 ]
Khan, Ali R. [8 ]
Amunts, Katrin [2 ]
Evans, Alan C. [1 ]
Dickscheid, Timo [2 ]
Bernhardt, Boris [1 ]
机构
[1] McGill Univ, Montreal Neurol Inst & Hosp, McConnell Brain Imaging Ctr, Montreal, PQ, Canada
[2] Forschungszentrum Julich, Inst Neurosci & Med INM 1, Julich, Germany
[3] Concordia Univ, Dept Comp Sci & Software Engn, Montreal, PQ, Canada
[4] UCL, Wellcome Trust Ctr Neuroimaging, London, England
[5] Univ Western Ontario, Brain & Mind Inst, London, ON, Canada
[6] Max Planck Inst Human Cognit & Brain Sci, Otto Hahn Grp Cognit Neurogenet, Leipzig, Germany
[7] Forschungszentrum Julich, Inst Neurosci & Med INM 7, Julich, Germany
[8] Univ Western Ontario, Schulich Sch Med & Dent, Dept Med Biophys, London, ON, Canada
来源
ELIFE | 2021年 / 10卷
基金
加拿大健康研究院; 加拿大自然科学与工程研究理事会;
关键词
neuroimaging; histology; multi-modal; anatomy; Human; HUMAN CEREBRAL-CORTEX; AUTOMATED 3-D EXTRACTION; HUMAN BRAIN; PROBABILISTIC ATLAS; CYTOARCHITECTONIC DEFINITION; PARAHIPPOCAMPAL SUBREGIONS; ALZHEIMERS-DISEASE; COORDINATE SYSTEM; PREFRONTAL AREAS; MRI;
D O I
10.7554/eLife.70119
中图分类号
Q [生物科学];
学科分类号
07 ; 0710 ; 09 ;
摘要
Neuroimaging stands to benefit from emerging ultrahigh-resolution 3D histological atlases of the human brain; the first of which is 'BigBrain'. Here, we review recent methodological advances for the integration of BigBrain with multi-modal neuroimaging and introduce a toolbox, 'BigBrainWarp', that combines these developments. The aim of BigBrainWarp is to simplify workflows and support the adoption of best practices. This is accomplished with a simple wrapper function that allows users to easily map data between BigBrain and standard MRI spaces. The function automatically pulls specialised transformation procedures, based on ongoing research from a wide collaborative network of researchers. Additionally, the toolbox improves accessibility of histological information through dissemination of ready-to-use cytoarchitectural features. Finally, we demonstrate the utility of BigBrainWarp with three tutorials and discuss the potential of the toolbox to support multi-scale investigations of brain organisation.
引用
收藏
页数:25
相关论文
共 50 条
  • [1] A multimodal computational pipeline for 3D histology of the human brain
    Matteo Mancini
    Adrià Casamitjana
    Loic Peter
    Eleanor Robinson
    Shauna Crampsie
    David L. Thomas
    Janice L. Holton
    Zane Jaunmuktane
    Juan Eugenio Iglesias
    [J]. Scientific Reports, 10
  • [2] A multimodal computational pipeline for 3D histology of the human brain
    Mancini, Matteo
    Casamitjana, Adria
    Peter, Loic
    Robinson, Eleanor
    Crampsie, Shauna
    Thomas, David L.
    Holton, Janice L.
    Jaunmuktane, Zane
    Iglesias, Juan Eugenio
    [J]. SCIENTIFIC REPORTS, 2020, 10 (01)
  • [3] Mapping Cortical Laminar Structure in the 3D BigBrain
    Wagstyl, Konrad
    Lepage, Claude
    Bludau, Sebastian
    Zilles, Karl
    Fletcher, Paul C.
    Amunts, Katrin
    Evans, Alan C.
    [J]. CEREBRAL CORTEX, 2018, 28 (07) : 2551 - 2562
  • [4] Feasibility of multimodal 3D neuroimaging to guide implantation of intracranial EEG electrodes
    Rodionov, Roman
    Vollmar, Christian
    Nowell, Mark
    Miserocchi, Anna
    Wehner, Tim
    Micallef, Caroline
    Zombori, Gergely
    Ourselin, Sebastien
    Diehl, Beate
    McEvoy, Andrew W.
    Duncan, John S.
    [J]. EPILEPSY RESEARCH, 2013, 107 (1-2) : 91 - 100
  • [5] 3D Integration challenges today : from technological toolbox to industrial prototypes
    Mourier, T.
    Ribiere, C.
    Romero, G.
    Gottardi, M.
    Allouti, N.
    Eleouet, R.
    Roman, A.
    Magis, T.
    Minoret, S.
    Ratin, C.
    Scevola, D.
    Dupuy, E.
    Martin, B.
    Gabette, L.
    Marseilhan, D.
    Enot, T.
    Pellat, M.
    Loup, V
    Segaud, R.
    Feldis, H.
    Charpentier, A.
    Bally, J. P.
    Assous, M.
    Charbonnier, J.
    Laviron, C.
    Coudrain, P.
    Sillon, N.
    [J]. PROCEEDINGS OF THE 2013 IEEE INTERNATIONAL INTERCONNECT TECHNOLOGY CONFERENCE (IITC), 2013,
  • [6] Integration column: Artificial ECM: expanding the cell biology toolbox in 3D
    Lutolf, Matthias P.
    [J]. INTEGRATIVE BIOLOGY, 2009, 1 (03) : 235 - 241
  • [7] Integration of 3D printing and additive manufacturing in the interventional pulmonologist's toolbox
    Guibert, Nicolas
    Mhanna, Laurent
    Didier, Alain
    Moreno, Benjamin
    Leyx, Pierre
    Plat, Gavin
    Mazieres, Julien
    Hermant, Christophe
    [J]. RESPIRATORY MEDICINE, 2018, 134 : 139 - 142
  • [8] BigBrain: An Ultrahigh-Resolution 3D Human Brain Model
    Amunts, Katrin
    Lepage, Claude
    Borgeat, Louis
    Mohlberg, Hartmut
    Dickscheid, Timo
    Rousseau, Marc-Etienne
    Bludau, Sebastian
    Bazin, Pierre-Louis
    Lewis, Lindsay B.
    Oros-Peusquens, Ana-Maria
    Shah, Nadim J.
    Lippert, Thomas
    Zilles, Karl
    Evans, Alan C.
    [J]. SCIENCE, 2013, 340 (6139) : 1472 - 1475
  • [9] Evaluation Proposal of a Framework for the Integration of Multimodal Interaction in 3D Worlds
    Olmedo-Rodriguez, Hector
    Escudero-Mancebo, David
    Cardenoso-Payo, Valentin
    [J]. HUMAN-COMPUTER INTERACTION, PT II: NOVEL INTERACTION METHODS AND TECHNIQUES, 2009, 5611 : 84 - 92
  • [10] Conceptual and Practical Framework for the Integration of Multimodal Interaction in 3D Worlds
    Olmedo-Rodriguez, Hector
    Escudero-Mancebo, David
    Cardenoso-Payo, Valentin
    Gonzalez-Ferreras, Cesar
    Gonzalez-Escribano, Arturo
    [J]. NEW TRENDS ON HUMAN-COMPUTER INTERACTION: RESEARCH, DEVELOPMENT, NEW TOOLS AND METHODS, 2009, : 87 - 95
12345