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Anatomical variability, multi-modal coordinate systems, and precision targeting in the marmoset brain.
Ose, Takayuki; Autio, Joonas A; Ohno, Masahiro; Frey, Stephen; Uematsu, Akiko; Kawasaki, Akihiro; Takeda, Chiho; Hori, Yuki; Nishigori, Kantaro; Nakako, Tomokazu; Yokoyama, Chihiro; Nagata, Hidetaka; Yamamori, Tetsuo; Van Essen, David C; Glasser, Matthew F; Watabe, Hiroshi; Hayashi, Takuya.
Afiliação
  • Ose T; Laboratory for Brain Connectomics Imaging, RIKEN Center for Biosystems Dynamics Research, Kobe, Japan; Graduate School of Biomedical Engineering, Tohoku University, Sendai, Japan. Electronic address: ose@riken.jp.
  • Autio JA; Laboratory for Brain Connectomics Imaging, RIKEN Center for Biosystems Dynamics Research, Kobe, Japan. Electronic address: joonas.autio@riken.jp.
  • Ohno M; Laboratory for Brain Connectomics Imaging, RIKEN Center for Biosystems Dynamics Research, Kobe, Japan. Electronic address: m-ohno@riken.jp.
  • Frey S; Rogue Research Inc, Montreal, Canada. Electronic address: steve@rogue-research.com.
  • Uematsu A; Laboratory for Brain Connectomics Imaging, RIKEN Center for Biosystems Dynamics Research, Kobe, Japan. Electronic address: akiko.uematsu@riken.jp.
  • Kawasaki A; Laboratory for Brain Connectomics Imaging, RIKEN Center for Biosystems Dynamics Research, Kobe, Japan. Electronic address: aki_kawasaki@riken.jp.
  • Takeda C; Laboratory for Brain Connectomics Imaging, RIKEN Center for Biosystems Dynamics Research, Kobe, Japan. Electronic address: ctakeda@riken.jp.
  • Hori Y; Laboratory for Brain Connectomics Imaging, RIKEN Center for Biosystems Dynamics Research, Kobe, Japan; Department of Functional Brain Imaging, National Institutes for Quantum and Radiological Science and Technology, Chiba, Japan.
  • Nishigori K; Laboratory for Brain Connectomics Imaging, RIKEN Center for Biosystems Dynamics Research, Kobe, Japan; Sumitomo Dainippon Pharma Co. Ltd., Osaka, Japan. Electronic address: kantaro-nishigori@ds-pharma.co.jp.
  • Nakako T; Laboratory for Brain Connectomics Imaging, RIKEN Center for Biosystems Dynamics Research, Kobe, Japan; Sumitomo Dainippon Pharma Co. Ltd., Osaka, Japan. Electronic address: tomokazu-nakako@ds-pharma.co.jp.
  • Yokoyama C; Laboratory for Brain Connectomics Imaging, RIKEN Center for Biosystems Dynamics Research, Kobe, Japan; Faculty of Human life and Environmental Science, Nara women's University, Nara, Japan. Electronic address: chihiro@nara-wu.ac.jp.
  • Nagata H; Sumitomo Dainippon Pharma Co. Ltd., Osaka, Japan. Electronic address: hidetaka-nagata@ds-pharma.co.jp.
  • Yamamori T; Laboratory for Molecular Analysis of Higher Brain Function, RIKEN Center for Brain Science, Wako, Japan. Electronic address: tetsuo.yamamori@riken.jp.
  • Van Essen DC; Department of Neuroscience, Washington University Medical School, St Louis, MO United States. Electronic address: vanessen@wustl.edu.
  • Glasser MF; Department of Neuroscience, Washington University Medical School, St Louis, MO United States; Department of Radiology, Washington University Medical School, St Louis, MO United States. Electronic address: glasserm@wustl.edu.
  • Watabe H; Graduate School of Biomedical Engineering, Tohoku University, Sendai, Japan. Electronic address: watabe@cyric.tohoku.ac.jp.
  • Hayashi T; Laboratory for Brain Connectomics Imaging, RIKEN Center for Biosystems Dynamics Research, Kobe, Japan; Department of Brain Connectomics, Kyoto University Graduate School of Medicine, Kyoto, Japan. Electronic address: takuya.hayashi@riken.jp.
Neuroimage ; 250: 118965, 2022 04 15.
Article em En | MEDLINE | ID: mdl-35122965
Localising accurate brain regions needs careful evaluation in each experimental species due to their individual variability. However, the function and connectivity of brain areas is commonly studied using a single-subject cranial landmark-based stereotactic atlas in animal neuroscience. Here, we address this issue in a small primate, the common marmoset, which is increasingly widely used in systems neuroscience. We developed a non-invasive multi-modal neuroimaging-based targeting pipeline, which accounts for intersubject anatomical variability in cranial and cortical landmarks in marmosets. This methodology allowed creation of multi-modal templates (MarmosetRIKEN20) including head CT and brain MR images, embedded in coordinate systems of anterior and posterior commissures (AC-PC) and CIFTI grayordinates. We found that the horizontal plane of the stereotactic coordinate was significantly rotated in pitch relative to the AC-PC coordinate system (10 degrees, frontal downwards), and had a significant bias and uncertainty due to positioning procedures. We also found that many common cranial and brain landmarks (e.g., bregma, intraparietal sulcus) vary in location across subjects and are substantial relative to average marmoset cortical area dimensions. Combining the neuroimaging-based targeting pipeline with robot-guided surgery enabled proof-of-concept targeting of deep brain structures with an accuracy of 0.2 mm. Altogether, our findings demonstrate substantial intersubject variability in marmoset brain and cranial landmarks, implying that subject-specific neuroimaging-based localization is needed for precision targeting in marmosets. The population-based templates and atlases in grayordinates, created for the first time in marmoset monkeys, should help bridging between macroscale and microscale analyses.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Encéfalo / Mapeamento Encefálico / Callithrix / Imageamento por Ressonância Magnética / Tomografia Computadorizada por Raios X Limite: Animals Idioma: En Revista: Neuroimage Ano de publicação: 2022 Tipo de documento: Article
Texto completo
Imprimir
XML
PubMed Links
Buscar no Google

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Encéfalo / Mapeamento Encefálico / Callithrix / Imageamento por Ressonância Magnética / Tomografia Computadorizada por Raios X Limite: Animals Idioma: En Revista: Neuroimage Ano de publicação: 2022 Tipo de documento: Article