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http://alzheimers.med.umich.edu/research/resources-for-investigators/
An organization that provides scientists with human tissue from Alzheimer's patients and patients with related brain disorders. Brain tissue is collected from research studies at the University of Michigan, as well as other research centers, and are donated by the families of the patients or the participants themselves. Tissues that are present in the Brain Bank are pre-characterized by pathologists and can be provided to researchers upon request.
Proper citation: Michigan Alzheimer's Disease Center Brain Bank (RRID:SCR_008774) Copy
http://www.opwdd.ny.gov/institute-for-basic-research/home
A research arm of the New York State Office for People with Developmental Disabilities (OPWDD), which conducts basic and clinical research into the causes, treatment, and prevention of intellectual disabilities and other developmental disabilities. The goals of the IBR's research, services and education program are designed to provide prevention, earlier detection, and improved treatment of intellectual disabilities and other developmental disabilities. This research program has a total of 46 laboratories over 7 departments. These programs include the George A. Jervis Clinic (a tertiary-level diagnostic and research clinic), the Specialty Clinical Laboratories (conduct specialty testing for genetic, metabolic, neurodegenerative disorders), and the Comprehensive Genetic Disease Program at Richmond County (provides genetics and genetic counseling services). This institute provides educational activities in the graduate studies program, and the Programs in Developmental Neuroscience and Developmental Disabilities (PDNDD). The PDNDD collaborates with the faculty from the City University of New York and the State University of New York. The IBR staff regularly conducts public education workshops and professional seminars about developmental disabilities.
Proper citation: Institute for Basic Research in Developmental Disabilities (RRID:SCR_008806) Copy
https://www.musc.edu/website/research/brainbank/braindonor.html
A brain bank and biospecimen repository that provides research materials to clinicians, scientists and pathologists in South Carolina. The bank provides both control and diseased biospecimens and brain tissue needed for research in Alzheimer's disease, Parkinson's disease and other related neurological disorders. The Campbell Laboratory coordinates the brain tissue donation program, provides post-mortem confirmation of a patient having neurological disorders, and leads research trials. Any South Carolina resident can choose to sign up as a tissue donor and have their brain tissue donated post-mortem to be used for neurological disorder research. The tissue bank will process and analyze these tissue samples and send the results to the deceased person's family.
Proper citation: MUSC Center on Aging Campbell Neuropathology Laboratory (RRID:SCR_008826) Copy
An institute whose mission is to translate laboratory discoveries into prevention, treatment and cures for Alzheimer's, ALS, Huntington's, Parkinson's and other neurodegenerative diseases. MIND seeks to accelerate therapies that lessen the toll of disease on patients and families. Researchers of the institute collaborate, strategize, and share technology to find treatment for these diseases. As promising leads are developed in one area, they are tested in the other neurodegenerative disorders.
Proper citation: MassGeneral Institute for Neurodegenerative Disease (RRID:SCR_008746) Copy
Database of blood-brain barrier properties of peptides including structure, method, responses, physicochemical properties and related literature. The database is linked to a manuscript entitled Brainpeps: the blood-brain barrier peptide database, in which the BBB methods and responses are clarified and correlated to each other. Data may be submitted for addition to the database.
Proper citation: BrainPeps (RRID:SCR_008851) Copy
http://www.sci.utah.edu/software/fluorender.html
Interactive rendering tool for confocal microscopy data visualization. Combines rendering of multi-channel volume data and polygon mesh data, where properties of each dataset can be adjusted independently and quickly. Designed for neurobiologists, allowing them to better visualize confocal data from fluorescently-stained brains, but it is also useful for other biological samples. Features include feature tracking, 3D measurement tools, multiple render modes for multi-channel confocal data, and volume paint selection and segmentation.
Proper citation: FluoRender (RRID:SCR_014303) Copy
A community encyclopaedia that links brain research concepts with data, models and literature from around the world. It is an open project where users can participate and contribute to the global research community.
Proper citation: KnowledgeSpace (RRID:SCR_014539) Copy
An online tool for managing and viewing datasets. Data can be viewed in 2D or 3D with activation points as points clouds or projections on the cortex surface. Data can be imported as a NIfTI file or a list of activation peaks and results can be exported as a PDF file.
Proper citation: linkRbrain (RRID:SCR_014562) Copy
http://www.nitrc.org/projects/multixplore/
Graphical user interface that has been implemented as a 3D Slicer plugin (scripted module). It serves to display a corresponding set of cortical regions from functional connectivity matrix in an explorable 3D scene that represents brain anatomical environment. In addition to grey matter regions, MultiXplore automatically finds and extracts deterministic fiber bundles which exist between selected region(s) and adds them to the 3D environment. This feature helps in generating region-based fiber bundles given a desired whole-brain tractography data.
Proper citation: MultiXplore (RRID:SCR_014814) Copy
https://www.nitrc.org/projects/atpp
Integrated pipeline for tractography-based brain parcellation with automatic processing and massive parallel computing. ATPP offers a CLI version for parcellating multiple brain regions and a GUI version for parcellating a specific brain region. " ATPP completely follows the scientific cultural shift to open science, which aims at making scientific research including journal papers, lab notes, data, and, of course, workflow tools, accessible and transparent to all levels of society. ATPP is publicly accessible in Neuroimaging Informatics Tools and Resources Clearinghouse8 (NITRC) (https://www.nitrc.org/projects/atpp). Its source codes are hosted in GitHub9 (https://github.com/haililihai/ATPP_CLI; https://github.com/haililihai/ATPP_GUI), under the GNU generic purpose license version 310 (GPLv3), and are welcome to download and fork. The Digital Object Identifiers (DOIs) providing a persistent way to make digital data easily and uniquely citable was created from Zenodo11 platform with those GitHub repositories (ATPP CLI v2.0.0, doi: https://doi.org/10.5281/zenodo.239702; ATPP GUI v2.0.0, doi: https://doi.org/10.5281/zenodo.239705). "
Proper citation: Automatic Tractography-based Parcellation Pipeline (RRID:SCR_014815) Copy
https://github.com/BlueBrain/BluePyOpt
An extensible framework for data-driven model parameter optimization that wraps and standardizes several existing open-source tools. BluePyOpt abstracts the optimization and evaluation tasks into various reusable and flexible discrete elements according to established best-practices. It also provides methods for setting up both small- and large-scale optimizations on a variety of platforms.
Proper citation: BluePyOpt (RRID:SCR_014753) Copy
http://brainmap.org/software.html#GingerALE
Software available from brainmap.org to perform meta-analyses via the activation likelihood estimation (ALE) method. It also includes the transforms for icbm2tal conversions.
Proper citation: GingerALE (RRID:SCR_014921) Copy
http://brainatlas.mbi.ufl.edu/ImageGallery.php
Image Gallery of a 3D MRI Atlas of an Adult C57BL/6J Mouse Brain showing Slice Animation and 3D Animation including Axial, Coronal, Sagittal views. RealPlayer or Windows Media Player needs to be installed for viewing these animations.
Proper citation: MRM NeAt (Neurological Atlas) Mouse Brain Database Image Gallery (RRID:SCR_007032) Copy
http://www.siumed.edu/alz/research%20Dementia.html
A brain autopsy program developed to serve the needs of Illinois families and individuals affected by dementing diseases and to advance dementia research by providing tissue to researchers studying dementing diseases. The SIU School of Medicine (SIU-SM) Dementia Brain Autopsy Program facilitates the postmortem process for families wishing to obtain an autopsy for a loved one. A brain autopsy provides family members with accurate information regarding the exact nature of their relative's dementia. This includes information about the possibility of an inherited disorder which may affect other family members. The brain autopsy also helps clinicians improve their clinical skills by identifying the precise cause of the clinical dementia.
Proper citation: SIU CADRD Dementia Brain Autopsy Program (RRID:SCR_006918) Copy
An interactive multiresolution brain atlas that is based on over 20 million megapixels of sub-micron resolution, annotated, scanned images of serial sections of both primate and non-primate brains and integrated with a high-speed database for querying and retrieving data about brain structure and function. Currently featured are complete brain atlas datasets for various species, including Macaca mulatta, Chlorocebus aethiops, Felis catus, Mus musculus, Rattus norvegicus, Tyto alba and many other vertebrates. BrainMaps is currently accepting histochemical, immunocytochemical, and tracer connectivity data, preferably whole-brain. In addition, they are interested in EM, MRI, and DTI data.
Proper citation: BrainMaps.org (RRID:SCR_006878) Copy
http://humanconnectome.org/consortia/
Project to map the neural pathways that underlie human brain function for several modalities of neuroimaging data including fMRI. The purpose of the Project is to acquire and share data about the structural and functional connectivity of the human brain. It will greatly advance the capabilities for imaging and analyzing brain connections, resulting in improved sensitivity, resolution, and utility, thereby accelerating progress in the emerging field of human connectomics. Altogether, the Human Connectome Project will lead to major advances in the understanding of what makes us uniquely human and will set the stage for future studies of abnormal brain circuits in many neurological and psychiatric disorders. The sixteen institutes and centers of the NIH Blueprint for Neuroscience have funded two major grants that will take complementary approaches to deciphering the brain's amazingly complex wiring diagram. An 11-institution consortium led by Washington University in St. Louis and the University of Minnesota received a 5-year grant to enable development and utilization of advanced Magnetic Resonance Imaging (MRI) methods to chart brain circuitry. A consortium led by Massachusetts General Hospital and the University of California at Los Angeles received a grant to enable building and refining a next-generation 3T MR scanner that improves the quality and spatial resolution with which brain connectivity data can be acquired at this field strength.
Proper citation: NIH Human Connectome Project (RRID:SCR_006942) Copy
http://www.wholebraincatalog.org/
THIS RESOURCE IS NO LONGER IN SERVICE, documented May 26, 2016. An open source, downloadable, 3d atlas of the mouse brain and its cellular constituents that allows multi-scale data to be visualized in a seamless way, similar to Google earth. Data within the Catalog is marked up with annotations and can link out to additional data sources via a semantic framework. This next generation open environment has been developed to connect members of the neuroscience community to facilitate solutions for today's intractable challenges in brain research through cooperation and crowd sourcing. The client-server platform provides rich 3-D views for researchers to zoom in, out, and around structures deep in a multi-scale spatial framework of the mouse brain. An open-source, 3-D graphics engine used in graphics-intensive computer gaming generates high-resolution visualizations that bring data to life through biological simulations and animations. Within the Catalog, researchers can view and contribute a wide range of data including: * 3D meshes of subcellular scenes or brain region territories * Large 2D image datasets from both electron and light level microscopy * NeuroML and Neurolucida neuronal reconstructions * Protein Database molecular structures Users of the Whole Brain Catalog can: * Fit data of any scale into the international standard atlas coordinate system for spatial brain mapping, the Waxholm Space. * View brain slices, neurons and their animation, neuropil reconstructions, and molecules in appropriate locations * View data up close and at a high resolution * View their own data in the Whole Brain Catalog environment * View data within a semantic environment supported by vocabularies from the Neuroscience Information Framework (NIF) at http://www.neuinfo.org. * Contribute code and connect personal tools to the environment * Make new connections with related research and researchers 5 Easy Ways to Explore: * Explore the datasets across multiple scales. * View data closely at high resolution. * Observe accurately simulated neurons. * Readily search for content. * Contribute your own research.
Proper citation: Whole Brain Catalog (RRID:SCR_007011) Copy
http://www.nybb.hs.columbia.edu/
A brain bank which collects postmortem human brains to meet the needs of neuroscientists investigating specific psychiatric and neurological disorders. NYBB disburses tissue samples to investigating clinicians or scientists whose research has been approved by their Institutional Review Board. The tasks of the NYBB include: collection and processing of human postmortem brain samples for research; neuropathological evaluation and diagnosis; storage and computerized inventory of brain samples; and distribution of brain samples to investigating clinicians and scientists. Brains from individuals without neurological or psychiatric disorders are used as normal controls.
Proper citation: New York Brain Bank at Columbia University (RRID:SCR_007142) Copy
http://brainatlas.mbi.ufl.edu/Database/
Comprehensive three-dimensional digital atlas database of the C57BL/6J mouse brain based on magnetic resonance microscopy images acquired on a 17.6-T superconducting magnet. This database consists of: Individual MRI images of mouse brains; three types of atlases: individual atlases, minimum deformation atlases and probabilistic atlases; the associated quantitative structural information, such as structural volumes and surface areas. Quantitative group information, such as variations in structural volume, surface area, magnetic resonance microscopy image intensity and local geometry, have been computed and stored as an integral part of the database. The database augments ongoing efforts with other high priority strains as defined by the Mouse Phenome Database focused on providing a quantitative framework for accurate mapping of functional, genetic and protein expression patterns acquired by a myriad of technologies and imaging modalities. You must register First (Mandatory) and then you may Download Images and Data.
Proper citation: MRM NeAt (Neurological Atlas) Mouse Brain Database (RRID:SCR_007053) Copy
http://www.stanleyresearch.org/dnn/BrainResearchLaboratory/tabid/195/Default.aspx
It is a widely used resource for researchers trying to find the causes of, and better treatments for, schizophrenia, bipolar disorder and major depression. Brains were collected 1994 to 2005 with the permission of the families in a standardized manner, with half of each specimen being frozen and half fixed in formalin. Currently four cohorts are available for study; the Neuropathology Consortium consisting of 60 cases (15 each schizophrenia, bipolar disorder, depression, and controls), the Array Collection consisting of 105 cases (35 each schizophrenia, bipolar disorder, and controls), the Depression Collection consisting of 36 cases (12 each depression with psychosis, depression without psychosis, and controls), and the Parietal Collection of 48 cases (fixed inferior parietal sections from 24 each schizophrenia and controls). Since 1996, the Stanley Brain Collection has sent over 200,000 sections and 10,000 blocks of brain tissue to 240 research laboratories in 23 states and 20 foreign countries. All tissue has been provided to the researchers without charge. All costs for collecting, processing, and storing the brain tissue have been borne by The Stanley Medical Research Institute as a public service. All reasonable requests for brain tissue (over 90 percent of applications) have been honored. Researchers selected to receive tissue must sign an agreement that sets forth conditions for its use. Results received from researchers become part of the Stanley brain collection data set and will be used for integrative, multivariate analyses. In addition to overseeing the brain collection, the laboratory conducts research on the neuropathology of schizophrenia and bipolar disorder and on brain development. Many studies carried out at the Stanley Brain Research Laboratory are done in cooperation with studies at the Stanley Laboratory of Developmental Neurovirology.
Proper citation: Stanley Brain Collection (RRID:SCR_007062) Copy
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