R01NS125307
Project Grant
Overview
Grant Description
Unraveling the Superficial White Matter of the Primate Brain: Tracer-Based Histology and dMRI Tractography Validation - Abstract
In this 5-year R01 grant entitled "Unraveling the Superficial White Matter of the Primate Brain: Tracer-Based Histology and Diffusion MRI Tractography Validation," we will map superficial white matter (SWM) in the primate cerebrum using experimental tract tracing methods. We will use this ground truth information to validate high-resolution in vivo and ultra-high resolution ex vivo diffusion MRI (dMRI) based tractography in the same rhesus macaque monkeys.
The SWM is a continuous layer located between the cerebral cortex of the forebrain and the underlying white matter association pathways. It comprises axons that interconnect cerebral cortical areas, including U-shaped fibers (U-fibers) under the cerebral sulci. This axonal layer plays a role in a broad range of neurological conditions such as autism spectrum disorder, multiple sclerosis, and Alzheimer's disease, and knowledge of the SWM is essential for accurately interpreting dMRI-based tractography.
Critically, the fundamental connectional neuroanatomy of the SWM is largely unknown due to our inability to visualize the specific origins, terminations, and trajectories of axons in the human brain. Our knowledge of human SWM connectional neuroanatomy is thus derived almost exclusively from experimental tract tracing results in the non-human primate (NHP) model, but comprehensive studies of the NHP SWM, from origin through trajectory to termination, have not been performed. Therefore, knowledge of human SWM connectivity and organization can be improved by invasive tract tracing studies in the NHP.
The goal of the proposed research is to carry out the first detailed neuroanatomical study of the SWM in the NHP brain, with dMRI validation in the NHP and translation to human brains. To achieve this goal, we will use a range of histological techniques in conjunction with dMRI scans obtained with the Massachusetts General Hospital (MGH) Connectom Scanner to produce superior quality dMRI data.
We will first datamine the research literature to produce a compendium of existing knowledge of SWM connectivity in the rhesus monkey. We will also examine the Pandya-Rosene Archive, a vast collection of neuroanatomy cases that has formed the foundation of data on white matter connections in the NHP. We will utilize this archive to chart the organization of the SWM in frontal brain areas.
We will then use modern histological methods, including clarity-based tissue clearing and neuroanatomical tract tracing, to interrogate the structure, topography, and connectivity of the SWM, and thereby produce ground truth data. We will perform in vivo and ex vivo dMRI in the same animals in which we perform neuroanatomical tract tracing experiments, allowing for direct comparisons between histological and neuroimaging-based connectivity.
Moreover, we will disseminate the dMRI data to the neuroimaging community and host a competition to determine the optimal tractography method for SWM. Finally, we will translate knowledge of SWM neuroanatomy to the human brain using homologically based comparisons with human Connectome Project datasets. These data will provide ground truth of SWM connectivity and serve to improve dMRI tractography in NHP and human brains.
In this 5-year R01 grant entitled "Unraveling the Superficial White Matter of the Primate Brain: Tracer-Based Histology and Diffusion MRI Tractography Validation," we will map superficial white matter (SWM) in the primate cerebrum using experimental tract tracing methods. We will use this ground truth information to validate high-resolution in vivo and ultra-high resolution ex vivo diffusion MRI (dMRI) based tractography in the same rhesus macaque monkeys.
The SWM is a continuous layer located between the cerebral cortex of the forebrain and the underlying white matter association pathways. It comprises axons that interconnect cerebral cortical areas, including U-shaped fibers (U-fibers) under the cerebral sulci. This axonal layer plays a role in a broad range of neurological conditions such as autism spectrum disorder, multiple sclerosis, and Alzheimer's disease, and knowledge of the SWM is essential for accurately interpreting dMRI-based tractography.
Critically, the fundamental connectional neuroanatomy of the SWM is largely unknown due to our inability to visualize the specific origins, terminations, and trajectories of axons in the human brain. Our knowledge of human SWM connectional neuroanatomy is thus derived almost exclusively from experimental tract tracing results in the non-human primate (NHP) model, but comprehensive studies of the NHP SWM, from origin through trajectory to termination, have not been performed. Therefore, knowledge of human SWM connectivity and organization can be improved by invasive tract tracing studies in the NHP.
The goal of the proposed research is to carry out the first detailed neuroanatomical study of the SWM in the NHP brain, with dMRI validation in the NHP and translation to human brains. To achieve this goal, we will use a range of histological techniques in conjunction with dMRI scans obtained with the Massachusetts General Hospital (MGH) Connectom Scanner to produce superior quality dMRI data.
We will first datamine the research literature to produce a compendium of existing knowledge of SWM connectivity in the rhesus monkey. We will also examine the Pandya-Rosene Archive, a vast collection of neuroanatomy cases that has formed the foundation of data on white matter connections in the NHP. We will utilize this archive to chart the organization of the SWM in frontal brain areas.
We will then use modern histological methods, including clarity-based tissue clearing and neuroanatomical tract tracing, to interrogate the structure, topography, and connectivity of the SWM, and thereby produce ground truth data. We will perform in vivo and ex vivo dMRI in the same animals in which we perform neuroanatomical tract tracing experiments, allowing for direct comparisons between histological and neuroimaging-based connectivity.
Moreover, we will disseminate the dMRI data to the neuroimaging community and host a competition to determine the optimal tractography method for SWM. Finally, we will translate knowledge of SWM neuroanatomy to the human brain using homologically based comparisons with human Connectome Project datasets. These data will provide ground truth of SWM connectivity and serve to improve dMRI tractography in NHP and human brains.
Awardee
Funding Goals
NOT APPLICABLE
Grant Program (CFDA)
Awarding / Funding Agency
Place of Performance
Boston,
Massachusetts
021182518
United States
Geographic Scope
Single Zip Code
Related Opportunity
Analysis Notes
Amendment Since initial award the total obligations have increased 377% from $707,424 to $3,374,281.
Trustees Of Boston University was awarded
Primate Brain Superficial White Matter Mapping Improved Tractography
Project Grant R01NS125307
worth $3,374,281
from the National Institute of Neurological Disorders and Stroke in July 2022 with work to be completed primarily in Boston Massachusetts United States.
The grant
has a duration of 5 years and
was awarded through assistance program 93.853 Extramural Research Programs in the Neurosciences and Neurological Disorders.
The Project Grant was awarded through grant opportunity NIH Research Project Grant (Parent R01 Clinical Trial Not Allowed).
Status
(Ongoing)
Last Modified 7/6/26
Period of Performance
7/1/22
Start Date
6/30/27
End Date
Funding Split
$3.4M
Federal Obligation
$0.0
Non-Federal Obligation
$3.4M
Total Obligated
Activity Timeline
Subgrant Awards
Disclosed subgrants for R01NS125307
Transaction History
Modifications to R01NS125307
Additional Detail
Award ID FAIN
R01NS125307
SAI Number
R01NS125307-2921426919
Award ID URI
SAI UNAVAILABLE
Awardee Classifications
Private Institution Of Higher Education
Awarding Office
75NQ00 NIH National Institute of Neurological Disorders and Stroke
Funding Office
75NQ00 NIH National Institute of Neurological Disorders and Stroke
Awardee UEI
FBYMGMHW4X95
Awardee CAGE
4CY87
Performance District
MA-07
Senators
Edward Markey
Elizabeth Warren
Elizabeth Warren
Budget Funding
| Federal Account | Budget Subfunction | Object Class | Total | Percentage |
|---|---|---|---|---|
| National Institute of Neurological Disorders and Stroke, National Institutes of Health, Health and Human Services (075-0886) | Health research and training | Grants, subsidies, and contributions (41.0) | $1,389,834 | 100% |
Modified: 7/6/26