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http://surfer.nmr.mgh.harvard.edu/fswiki/Tracula
Software tool developed for automatically reconstructing a set of major white matter pathways in the brain from diffusion weighted images using probabilistic tractography. This method utilizes prior information on the anatomy of the pathways from a set of training subjects. By incorporating this prior knowledge in the reconstruction procedure, our method obviates the need for manual intervention with the tract solutions at a later stage and thus facilitates the application of tractography to large studies. The trac-all script is used to preprocess raw diffusion data (correcting for eddy current distortion and B0 field inhomogenities), register them to common spaces, model and reconstruct major white matter pathways (included in the atlas) without any manual intervention. trac-all may be used to execute all the above steps or parts of it depending on the dataset and user''''s preference for analyzing diffusion data. Alternatively, scripts exist to execute chunks of each processing pipeline, and individual commands may be run to execute a single processing step. To explore all the options in running trac-all please refer to the trac-all wiki. In order to use this script to reconstruct tracts in Diffusion images, all the subjects in the dataset must have Freesurfer Recons.
Proper citation: TRACULA (RRID:SCR_013152) Copy
http://www.nitrc.org/projects/atag_mri_scans/
Data sets from the atlasing of the basal ganglia (ATAG) consortium, which provides ultra-high resolution 7Tesla (T) magnetic resonance imaging (MRI) scans from young, middle-aged, and elderly participants. They include whole-brain and reduced field-of-view MP2RAGE and T2 scans with ultra-high resolution at a sub millimeter scale. The data can be used to develop new algorithms that help building new high-resolution atlases both in the basic and clinical neurosciences. They can also be used to inform the exact positioning of deep-brain electrodes relevant in patients with Parkinsons disease and neuropsychiatric diseases.
Proper citation: 7T Structural MRI scans ATAG (RRID:SCR_014084) Copy
Software toolbox for data processing and analysis of brain imaging, evolved from DPARSF (Data Processing Assistant for Resting-State fMRI).
Proper citation: DPABI (RRID:SCR_010501) Copy
Software tool for joint surface based registration and atlas construction of brain geometry and function.Cortical registration framework that jointly models mismatch between geometry and function while simultaneously learning unbiased population specific atlas.
Proper citation: JOSA (RRID:SCR_024756) Copy
https://fsl.fmrib.ox.ac.uk/fsl/fslwiki/FLIRT
Sotware automated robust and accurate tool for linear (affine) intra- and inter-modal brain image registration.
Proper citation: FMRIB's Linear Image Registration Tool (RRID:SCR_024922) Copy
https://fsl.fmrib.ox.ac.uk/fsl/fslwiki/XTRACT
Software command line tool for automated tractography. Standardised protocols for automated tractography in human and macaque brain.
Proper citation: XTRACT (RRID:SCR_024933) Copy
https://fsl.fmrib.ox.ac.uk/fsl/fslwiki/verbena
Software tool for quantification of perfusion and other haemodynamic parameters from Dynamic Susceptibility Contrast perfusion MRI of the brain.
Proper citation: VERBENA (RRID:SCR_024919) Copy
Knowledge graph system developed for managing and organizing rich metadata objects, initially for the Human Brain Project (HBP) and now extended to be a more generic, domain-agnostic solution. It is associated with CSCS (Swiss National Supercomputing Centre) and aims to provide a comprehensive toolset and API for working with knowledge graphs.
Proper citation: MarmotGraph (RRID:SCR_027452) Copy
https://imaging.uci.edu/fibre/
Facility for Imaging and Brain Research houses 3T Siemens Prisma scanner, mock scanner, and data analysis facilities. Research dedicated MRI scanning facility designed to suit wide range of basic and translational research programs by researchers across the UCI campus and beyond.
Proper citation: University of California at Irvine FIBRE Core Facility (RRID:SCR_027777) Copy
http://www.pediatricmri.nih.gov/
Data sets of clinical / behavioral and image data are available for download by qualified researchers from a seven year, multi-site, longitudinal study using magnetic resonance technologies to study brain maturation in healthy, typically-developing infants, children, and adolescents and to correlate brain development with cognitive and behavioral development. The information obtained in this study is expected to provide essential data for understanding the course of normal brain development as a basis for understanding atypical brain development associated with a variety of developmental, neurological, and neuropsychiatric disorders affecting children and adults. This study enrolled over 500 children, ranging from infancy to young adulthood. The goal was to study each participant at least three times over the course of the project at one of six Pediatric Centers across the United States. Brain MR and clinical/behavioral data have been compiled and analyzed at a Data Coordinating Center and Clinical Coordinating Center. Additionally, MR spectroscopy and DTI data are being analyzed. The study was organized around two objectives corresponding to two age ranges at the time of enrollment, each with its own protocols. * Objective 1 enrolled children ages 4 years, 6 months through 18 years (total N = 433). This sample was recruited across the six Pediatric Study Centers using community based sampling to reflect the demographics of the United States in terms of income, race, and ethnicity. The subjects were studied with both imaging and clinical/behavioral measures at two year intervals for three time points. * Objective 2 enrolled newborns, infants, toddlers, and preschoolers from birth through 4 years, 5 months, who were studied three or more times at two Pediatric Study Centers at intervals ranging from three months for the youngest subjects to one year as the children approach the Objective 1 age range. Both imaging and clinical/behavioral measures were collected at each time point. Participant recruitment used community based sampling that included hospital venues (e.g., maternity wards and nurseries, satellite physician offices, and well-child clinics), community organizations (e.g., day-care centers, schools, and churches), and siblings of children participating in other research at the Pediatric Study Centers. At timepoint 1, of those enrolled, 114 children had T1 scans that passed quality control checks. Staged data release plan: The first data release included structural MR images and clinical/behavioral data from the first assessments, Visit 1, for Objective 1. A second data release included structural MRI and clinical/behavioral data from the second visit for Objective 1. A third data release included structural MRI data for both Objective 1 and 2 and all time points, as well as preliminary spectroscopy data. A fourth data release added cortical thickness, gyrification and cortical surface data. Yet to be released are longitudinally registered anatomic MRI data and diffusion tensor data. A collaborative effort among the participating centers and NIH resulted in age-appropriate MR protocols and clinical/behavioral batteries of instruments. A summary of this protocol is available as a Protocol release document. Details of the project, such as study design, rationale, recruitment, instrument battery, MRI acquisition details, and quality controls can be found in the study protocol. Also available are the MRI procedure manual and Clinical/Behavioral procedure manuals for Objective 1 and Objective 2.
Proper citation: NIH MRI Study of Normal Brain Development (RRID:SCR_003394) Copy
Independent international facilitator catalyzing and coordinating global development of neuroinformatics aiming to advance data reuse and reproducibility in global brain research. Integrates and analyzes diverse data across scales, techniques, and species to understand brain function and positively impact the health and well being of society.
Proper citation: International Neuroinformatics Coordinating Facility (RRID:SCR_002282) Copy
Children''s Brain Tumor Foundation, a non-profit organization, was founded in 1988 by dedicated parents, physicians and friends. Our mission is to improve the treatment, quality of life and the long term outlook for children with brain and spinal cord tumors through research, support, education, and advocacy to families and survivors. Knowledge is critical for families to access expert care and ensure quality of life. Our free publication A Resource Guide for Parents of Children with Brain and Spinal Cord Tumors is now in its fourth edition, and is full of practical information to sort out the complexities of medical procedures, interruptions in school and social life, and uncertainty about the future. CBTF co-sponsors conferences for families, survivors and health care professionals, offering the latest information about research, treatments and strategies for living. Only scientific research will identify the causes and lead to effective treatments for brain tumors in children. CBTF funds cutting-edge research by scientists at top academic medical centers. Their discoveries hold the promise of improving the lives of affected children today and discovering the means of prevention for future generations. CBTF has awarded over $5 million in grants for basic and clinical research related to pediatric brain and spinal cord tumors. Also, over $625,000 has been given out in Quality of Life Grants.
Proper citation: Childrens Brain Tumor Foundation (RRID:SCR_004422) Copy
Founded in 1995, the Southeastern Brain Tumor Foundation (SBTF), a 501c3 not-for-profit charitable foundation, is devoted to improve the quality of life for brain tumor patients and their families. By offering information, education and support services, we aspire to instill hope, knowledge and comfort to all involved. The Southeastern Brain Tumor Foundation also raises funds for research and medical personnel so that a cure can be found. For over a decade, the SBTF has become a well-known fundraising entity supporting critical, cutting edge brain tumor research at major medical centers in the Southeast. Our annual Race for Research held in Atlanta, Georgia each summer, is our main fundraising event popular throughout Atlanta and the surrounding metropolitan area and has funded over $1.2 million dollars in research grants to leading researchers at major medical centers throughout the Southeast over the past decade. We are proud of our dedicated, all volunteer Board of Directors who meet monthly. Our Board is a diverse group comprised of individuals who''ve been touched by brain tumors in many different ways. Ranging from patients and family members to healthcare professionals; we are all committed to promoting the awareness of brain tumors in the community, communicating with patients and families and raising critical funds for research grants furthering advancements in the treatment of brain tumors. Our monthly support group, lead by a nurse practitioner, welcomes patients and their families to sit side by side with each other, share their experiences, communicate and receive support. As a neurosurgeon-scientist focused on the treatment of patients with brain tumors, I am committed to advancing the mission of SBTF forward in the fight against brain tumors. Our ability to serve the brain tumor community is dependent on each of you. Whether you support us with a financial donation in our fundraising efforts or with your time as a volunteer, each of you are a vital and integral part of our success and we thank you.
Proper citation: Southeastern Brain Tumor Foundation (RRID:SCR_004768) Copy
http://www.meduniwien.ac.at/kin/index.html
The (Clinical) Institute of Neurology (IN) of the Medical University Vienna was founded in 1882 by Heinrich Obersteiner. It is the oldest institution embracing the multidisciplinarity of neurosciences and has served as model for the establishment of similarly designed institutions in many countries. The original location of the then Neurological Institute in Vienna was at Schwarzspanierstrasse. Since 1993, IN is located in the Vienna General Hospital in top-class laboratory facilities. IN is committed to its proud tradition as Obersteiner Institute and to a promising future of a nationally and internationally leading institution in the clinical neurosciences. Our work aims to translate the understanding of nervous diseases to the development of novel therapeutics and diagnostics. IN''''s tasks include diagnostic patient service, research and graduate / postgraduate teaching in neuropathology, neurochemistry, and neuro-molecular biology in an integrated way. Neuropathology is a recognized medical specialty in Austria. It analyzes structural changes of nervous tissues in disease. Diagnostic neuropathology makes use of most modern morphological techniques applied to diseased central, peripheral and vegetative nervous tissues and fluids, and muscle. Neuropathological diagnoses are a basis for disease classification and rational therapies. Neurodegenerative disorders, in particular prion diseases, virus diseases affecting the nervous system, and brain tumors (neuro-oncology) are research priorities. In the highly publicized area of prion diseases, IN has developed into a national and international center of excellence and expertise that leads several European, EU-funded networks in prion research. As an indispensable asset, the IN possesses a large brain bank that has systematically collected neuropathological specimens since 1948. Most samples are fixed and paraffin-embedded tissue only, but in a part of neurosurgical, nerve and muscle biopsies and autopsies, also fresh tissue is obtained, frozen and stored at -80 degrees C. Occasionally blood and CSF are also available. The unique neuropathological collection of histological slides, paraffin blocks and formol-fixed nervous tissues now comprises about 16.000 brain autopsies, 30.000 neurosurgical and 7.500 nerve/muscle biopsies. Also a number of cell cultures have been stored, mainly fibroblasts from patients with rare neurometabolic diseases, and primary cultures of brain tumors. IN participates in the EU-supported European Network of Brain Banks BrainNet Europe.
Proper citation: Medical University of Vienna Institute of Neurology (RRID:SCR_005030) Copy
Supports research and scholarship to improve the quality of life by providing funding for grants in three program areas: studying complex systems, understanding human cognition, and mathematical and complex systems approaches for brain cancer. Types of awards include Fellowship Awards, Scholar Awards, and Collaborative Awards. * Studying Complex Systems: This program supports scholarship and research directed toward the development of theoretical and mathematical tools that can be applied to the study of complex, adaptive, nonlinear systems. It is anticipated that research funded in this program will address issues in fields such as biology, biodiversity, climate, demography, epidemiology, technological change, economic development, governance, or computation. * Understanding Human Cognition: This program supports research studying how neural systems are linked to and support cognitive functions and how cognitive systems are related to an organism's (preferably human) observable behavior. Studies with model organisms should justify why such models were selected and how data obtained from models advances our understanding of human cognition. * Mathematical & Complex Systems Approaches for Brain Cancer: (Collaborative Activity Awards grant type only.) Despite some recent cause for optimism for advancing the clinical treatment of brain cancers, for many patients brain tumor remains a devastating diagnosis. Progress against this disease has been stymied by limited understandings of the molecular, metabolic, and physiological characteristics of human brain cancers across multiple temporal and spatial scales and by the failure of many preclinical models to predict patient responses.
Proper citation: James S. McDonnell Foundation (RRID:SCR_006341) Copy
http://www.incf.org/activities/our-programs/pons/cumbo
Ontology of formal definitions (i.e., machine processable) for the types of structures commonly described in neuroanatomy.
Proper citation: Common Upper Mammalian Brain Ontology (RRID:SCR_003629) Copy
http://www.brainnet-europe.org/index.php?option=com_content&view=article&id=99&Itemid=99
Sampling protocols produced by the BrainNet Europe Consortium generally with five types of dissection and brain processing procedures defined in all disease related protocols. * Fresh brain dissection * Fresh brain processing * Dissection of formalin-fixed brain * Histology and immunohistochemistry * Processing fresh brain
Proper citation: BrainNet Europe Sampling Protocols (RRID:SCR_000484) Copy
http://www.nature.com/jcbfm/index.html
The Journal of Cerebral Blood Flow & Metabolism stands at the interface between basic and clinical neurovascular research, and features timely and relevant research highlighting experimental, theoretical, and clinical aspects of brain circulation, metabolism and imaging. The journal is relevant to any physician or scientist with an interest in brain function, cerebrovascular disease, cerebral vascular regulation and brain metabolism, including neurologists, neurochemists, physiologists, pharmacologists, anesthesiologists, neuroradiologists, neurosurgeons, neuropathologists and neuroscientists. On this website, you will find the full text of articles published online weekly, in advance of print, the current issue and an archive of previous issues. You can also find general information about the journal, and more detailed information for readers, authors, referees, librarians, advertisers, and journalists. Most articles are published online before they appear in print. New papers are uploaded weekly to the Advance online publication (AOP) page. The online publication date is specified for each paper; these versions are identical to the printed version in every respect and may be cited using the digital object identifier (DOI).
Proper citation: Journal of Cerebral Blood Flow and Metabolism (RRID:SCR_001769) Copy
http://neuroscience.ucdavis.edu/
Recognizing the importance of research in Neuroscience and its great promise, as well as the importance of educating the neuroscientists of the future, the University of California, Davis, in 1990, established The Center for Neuroscience. The Center has now become the focus of interdisciplinary studies in Cellular, Molecular, Systems, Cognitive and Translational Neuroscience, with a Faculty made up of world leaders in brain research. The Center occupies facilities especially designed to promote and foster interactions among the resident faculty, associated faculty, postdoctoral fellows, and graduate students, with state-of-the-art lab space and associated facilities such as cellular and molecular imaging, functional imaging of the human brain and extensive databasing facilities. The Center provides an attractive setting for seminar series that feature distinguished National and International guest speakers as well as speakers from the UC Davis community of scientists. The Center is home to a number of visiting scholars each year and enjoys a lively intellectual atmosphere.
Proper citation: University of California Davis Center for Neuroscience (RRID:SCR_001640) Copy
http://www.braintumorfunders.org/
The Brain Tumor Funders'' Collaborative is a partnership among five private philanthropic and advocacy organizations: American Brain Tumor Association, Brain Tumour Foundation of Canada, Children''s Brain Tumor Foundation, James S. McDonnell Foundation, and Sontag Foundation. This Collaborative promotes research directly relating to brain tumors and offers grants to professors and institutions to conduct research.
Proper citation: Brain Tumor Funders Collaborative (RRID:SCR_005104) Copy
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