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Brain Charts for the Rhesus Macaque Lifespan.
Alldritt, S; Ramirez, J S B; de Wael, R Vos; Bethlehem, R; Seidlitz, J; Wang, Z; Nenning, K; Esper, N B; Smallwood, J; Franco, A R; Byeon, K; Alexander-Bloch, A; Amaral, D G; Amiez, C; Balezeau, F; Baxter, M G; Becker, G; Bennett, J; Berkner, O; Blezer, E L A; Brambrink, A M; Brochier, T; Butler, B; Campos, L J; Canet-Soulas, E; Chalet, L; Chen, A; Cléry, J; Constantinidis, C; Cook, D J; Dehaene, S; Dorfschmidt, L; Drzewiecki, C M; Erdman, J W; Everling, S; Falchier, A; Fleysher, L; Fox, A; Freiwald, W; Froesel, M; Froudist-Walsh, S; Fudge, J; Funck, T; Gacoin, M; Gale, D J; Gallivan, J; Garin, C M; Griffiths, T D; Guedj, C; Hadj-Bouziane, F.
Affiliation
  • Alldritt S; Center for the Integrative Developmental Neuroscience, Child Mind Institute.
  • Ramirez JSB; Child Mind Institute.
  • de Wael RV; University of Minnesota.
  • Bethlehem R; Child Mind Institute.
  • Seidlitz J; University of Cambridge, Department of Psychology.
  • Wang Z; University of Pennsylvania.
  • Nenning K; Child Mind Institute.
  • Esper NB; Nathan Kline Institute.
  • Smallwood J; Child Mind Institute.
  • Franco AR; Queens University.
  • Byeon K; Child Mind Institute.
  • Alexander-Bloch A; Nathan Kline Institute.
  • Amaral DG; Child Mind Institute.
  • Amiez C; Department of Child and Adolescent Psychiatry and Behavioral Science, Children's Hospital of Philadelphia.
  • Balezeau F; Department of Psychiatry, University of Pennsylvania.
  • Baxter MG; Department of Psychiatry and Behavioral Sciences and The MIND Institute.
  • Becker G; University of California Davis.
  • Bennett J; Stem Cell and Brain Research Institute.
  • Berkner O; Newcastle University.
  • Blezer ELA; Section on Comparative Medicine, Wake Forest University School of Medicine.
  • Brambrink AM; Universite Claude Bernard Lyon 1.
  • Brochier T; University of California Davis, Dept of Psychology.
  • Butler B; Translational Neuroscience division, Center for Biomedical Imaging and Neuromodulation, Nathan Kline Institute.
  • Campos LJ; University Medical Center Utrecht.
  • Canet-Soulas E; Columbia University.
  • Chalet L; Aix-Marseille University.
  • Chen A; Translational Neuroscience Division, Center for Biomedical Imaging and Neuromodulation, Nathan Kline Institute.
  • Cléry J; University of California Davis.
  • Constantinidis C; Universite Claude Bernard Lyon 1.
  • Cook DJ; Universite Claude Bernard Lyon1.
  • Dehaene S; East China Normal University.
  • Dorfschmidt L; McGill University.
  • Drzewiecki CM; Department of Biomedical Engineering, Vanderbilt University.
  • Erdman JW; Queens University.
  • Everling S; NeuroSpin.
  • Falchier A; University of Pennsylvania.
  • Fleysher L; University of California Davis.
  • Fox A; University of Illinois Urbana-Champaign.
  • Freiwald W; University of Western Ontario.
  • Froesel M; Translational Neuroscience Division, Center for Biomedical Imaging and Neuromodulation, Nathan Kline Institute.
  • Froudist-Walsh S; Mount Sinai School of Medicine.
  • Fudge J; University of California Davis.
  • Funck T; Rockefeller University.
  • Gacoin M; Institute for Cognitive Science Marc Jeannerod.
  • Gale DJ; University of Bristol.
  • Gallivan J; University of Rochester.
  • Garin CM; Child Mind Institute.
  • Griffiths TD; Institute for Cognitive Science Marc Jeannerod.
  • Guedj C; Queen's University.
  • Hadj-Bouziane F; Queens University.
bioRxiv ; 2024 Aug 30.
Article in En | MEDLINE | ID: mdl-39257737
ABSTRACT
Recent efforts to chart human brain growth across the lifespan using large-scale MRI data have provided reference standards for human brain development. However, similar models for nonhuman primate (NHP) growth are lacking. The rhesus macaque, a widely used NHP in translational neuroscience due to its similarities in brain anatomy, phylogenetics, cognitive, and social behaviors to humans, serves as an ideal NHP model. This study aimed to create normative growth charts for brain structure across the macaque lifespan, enhancing our understanding of neurodevelopment and aging, and facilitating cross-species translational research. Leveraging data from the PRIMatE Data Exchange (PRIME-DE) and other sources, we aggregated 1,522 MRI scans from 1,024 rhesus macaques. We mapped non-linear developmental trajectories for global and regional brain structural changes in volume, cortical thickness, and surface area over the lifespan. Our findings provided normative charts with centile scores for macaque brain structures and revealed key developmental milestones from prenatal stages to aging, highlighting both species-specific and comparable brain maturation patterns between macaques and humans. The charts offer a valuable resource for future NHP studies, particularly those with small sample sizes. Furthermore, the interactive open resource (https//interspeciesmap.childmind.org) supports cross-species comparisons to advance translational neuroscience research.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: BioRxiv Year: 2024 Document type: Article Country of publication: United States
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Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: BioRxiv Year: 2024 Document type: Article Country of publication: United States