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https://kinarm.com/solutions/kinarm-end-point-lab/
Robotics research tool designed to make quantitative neurological assessments of sensorimotor, proprioception, and cognitive brain function by BKIN Technologies. Robotic manipulandum with display for studying arm movements. Allows to assess coordination of limbs at multiple joints while measuring joint specific force.
Proper citation: Kinarm End-Point Lab (RRID:SCR_017060) Copy
Organize, Store, Disseminate, Analyze and Visualize Invasive Neurophysiology Data. Shared archive and resource for human invasive neurophysiology data that have been established by Brain Research through Advancing Innovative Neurotechnologies (BRAIN) Initiative along with software tools for data uploading, visualization and analysis. Users can view and query datasets through online interface but cannot access raw data. Platform utilizes centralized and federated model. Investigators may upload data to central archive or house it themselves.
Proper citation: Data Archive BRAIN Initiative (RRID:SCR_017114) Copy
https://github.com/Neural-Systems-at-UIO/MeshView-for-Brain-Atlases
Web application for real time 3D display of surface mesh data representing structural parcellations and generation of user defined cut planes from volumetric atlases.
Proper citation: MeshView (RRID:SCR_017222) Copy
https://github.com/CPernet/brain_colours
Software tool as a perceptually uniform color maps. Used in scientific literature to reflect data of brain imaging.
Proper citation: Colour maps for brain imaging (RRID:SCR_016715) Copy
https://cran.r-project.org/web/packages/anocva/index.html
Software R package as a nonparametric statistical test to compare clustering structures with applications in functional magnetic resonance imaging data (fMRI). Used for analysis of cluster variability in the diagnosis of neuropsychological disorders.
Proper citation: ANOCVA (RRID:SCR_016719) Copy
https://www.janelia.org/project-team/mouselight
Software imaging platform to generate datasets of whole mouse brains imaged at submicron resolution that allow reconstructions of complete axonal arbors of individual neurons across the entire mouse brain.
Proper citation: MouseLight Project (RRID:SCR_016668) Copy
https://github.com/vaklip/rsfmri_fconn
Software program for preprocessing resting state functional magnetic resonance imaging (rsfMRI) measurements and calculating region of interest based whole brain functional connectivity.
Proper citation: rsfMRI_fconn calculation (RRID:SCR_016591) Copy
Open framework for evaluating correspondence between brain images and teaching neuroanatomy.
Proper citation: AFIDs (RRID:SCR_016623) Copy
http://caintegrator-info.nci.nih.gov/rembrandt
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on April 28,2023. REMBRANDT is a data repository containing diverse types of molecular research and clinical trials data related to brain cancers, including gliomas, along with a wide variety of web-based analysis tools that readily facilitate the understanding of critical correlations among the different data types. REMBRANDT aims to be the access portal for a national molecular, genetic, and clinical database of several thousand primary brain tumors that is fully open and accessible to all investigators (including intramural and extramural researchers), as well as the public at-large. The main focus is to molecularly characterize a large number of adult and pediatric primary brain tumors and to correlate those data with extensive retrospective and prospective clinical data. Specific data types hosted here are gene expression profiles, real time PCR assays, CGH and SNP array information, sequencing data, tissue array results and images, proteomic profiles, and patients'''' response to various treatments. Clinical trials'''' information and protocols are also accessible. The data can be downloaded as raw files containing all the information gathered through the primary experiments or can be mined using the informatics support provided. This comprehensive brain tumor data portal will allow for easy ad hoc querying across multiple domains, thus allowing physician-scientists to make the right decisions during patient treatments., THIS RESOURCE IS NO LONGER IN SERVICE. Documented on September 16,2025.
Proper citation: Repository of molecular brain neoplasia data (RRID:SCR_004704) Copy
http://www.ukmstissuebank.imperial.ac.uk/news3d.html
Procures brain, spinal cord and other tissues bequeathed by donors and makes them available to scientists investigating the cause and treatment of multiple sclerosis. The Tissue Bank achieves this aim by addressing the following objectives: # Increasing the awareness of the importance of human tissue to research amongst the MS and scientific communities. # Being sensitive to the needs of the tissue donor and responsive to the requirements of scientists when collecting and processing donated tissue. # Making available high quality, well-documented samples of tissue to research scientists working to better understand MS. There are approximately 85 000 people with multiple sclerosis in the United Kingdom. The varied symptoms experienced by all these people result from damage taking place within their brain and spinal cord. Understanding the exact nature of this damage is essential if we are to better treat the condition. Vital information about how the brain and spinal cord are damaged in multiple sclerosis can be obtained by using a multitude of experimental approaches to study the affected tissue from people with MS and ''control'' tissue from people without the disease. The donation of tissue for research is therefore fundamental to furthering our understanding of the causes of multiple sclerosis and to developing more effective treatments for the disease. The UK Multiple Sclerosis Tissue Bank welcomes requests for tissue samples for use in research into the cause and treatment of multiple sclerosis. It has available post mortem, cryopreserved brain and spinal cord tissue both fixed and unfixed, and cerebrospinal fluid from patients with and without a history of multiple sclerosis. Freshly dissected tissue samples, or those preserved using unconventional techniques may also be made available by prior arrangement.
Proper citation: UK Multiple Sclerosis Tissue Bank (RRID:SCR_004609) Copy
Central repository of information on neuronal cell types mainly accumulating information on: Genetically labeled cell types in mouse brain and genetically engineered mouse lines for cell type research. Mouse lines are annotated with * Atlas for examining transgene expression patterns * Information on construct used to generate transgene * Associated publications * Anatomical regions where transgene is expressed (based on Atlas) * Information on where to obtain the animals Currently, the mouse lines in the database are mostly generated at Cold Spring Harbor Lab, Scripps Research Institute, Baylor College of Medicine and Brandeis University with few other exceptions. In the future, they will incorporate more mouse lines useful for neuronal cell type research. Cell types are annotated with * Anatomical region * Properties (frequently used terms in neuroscience research) * Mouse line used to define the cell type * Genome wide transcriptome data (if available) * Specific (marker) genes (if available) * Marker immunostaining data (if available) * Associated publications * Electrophysiological characterizations (when available) * Morphological characterizations (when available)
Proper citation: celltypes.org (RRID:SCR_004545) Copy
At Brain Injury Alliance of Kentucky (BIAK), a 501(c)(3) non-profit agency, our sole mission is to serve Kentucky citizens whose lives have been affected by brain injury. We do this through advocacy, education, prevention, research, service and support. BIAK links survivors of brain injury and their families to support from others with similar experience; provides them with education and information about living and coping with brain injury; assists them in locating resources for financial assistance; and seeks to connect people with sources of emotional support. BIAK began as an outgrowth of a Lexington area support group in the early 1980s. Family members, medical staff and others felt the need to expand the services and support to reach statewide. The state office was moved to Louisville and incorporated in 1986. BIAK now has offices and staff in Louisville and Lexington. BIAK seeks to share its philosophy, experience and skills with survivors, family members, students, caregivers, administrators, health professionals, legislators, the lay community and all those who desire to make a difference in the life of individuals with brain injuries and their families. At BIAK you will find information about brain injury. We define brain injury as any injury to the brain including injury received from a fall, a stroke, trauma, anoxia, infection, and tumors or other illnesses. Each year, a growing number of Kentucky citizens are affected by brain tumors. These may range from benign tumors to aggressive cancers. The Michael Quinlan Brain Tumor program recently joined BIAK to provide service and support to individuals and families who have been affected by brain tumors. There is always help available to you and your family.
Proper citation: Brain Injury Alliance of Kentucky (RRID:SCR_004764) Copy
The Pediatric Low Grade Astrocytoma (PLGA) Foundation is the largest, and only, non-profit organization dedicated to providing hope to children, parents, and families fighting Pediatric Low Grade Astrocytomas (PLGAs). We were founded in August 2007, as a 501(c)(3) foundation made up of families and friends dedicated to helping children who are struggling with brain tumors. To date, families associated with the Pediatric Low Grade Astrocytoma (PLGA) Foundation have raised over $6 million for DEDICATED PLGA research and funded over a dozen new research projects targeted specifically at children''s brain tumors or PLGA''s. These funds have supported the launch of the Dana Farber Cancer Institute''s PLGA Research Program as well as numerous grants distributed by the Brain Tumor Society, and other fine institutions. The PLGA Foundation awards 100% of funds to education and research in the search for more effective, less toxic treatment options for this potentially devastating childhood brain tumor. The PLGA Foundation actively promotes partnerships with other non-profit organizations, private individuals and government entities and has collaborated on fund raising, education and grant allocations in order to leverage resources and funds. Our goal at the Pediatric Low Grade Astrocytoma (PLGA) Foundation, also known as Fight Juvenile Pilocytic Astrocytoma (FightJPA.org), is to UNITE families around the country and around the world in the FIGHT for the lives of our children who suffer from PLGAs - childhood brain tumors. We can defeat childhood brain tumors through a united effort on all fronts to increase awareness, education, fundraising and research of pediatric low grade astrocytomas.
Proper citation: Pediatric Low Grade Astrocytoma Foundation (RRID:SCR_004758) 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
FlyAtlas gives you a quick answer to the question: where is my gene of interest expressed/enriched in the adult fly? For each gene and tissue, you''re given the mRNA SIGNAL (how abundant the mRNA is), the mRNA ENRICHMENT (compared to whole flies), and the Affymetrix PRESENT CALL (out of 4 arrays, how many times it was detectably expressed). The dataset so far comprises 44 Affymetrix Dros2 expression arrays, each mapping the expression of 18770 transcripts - corresponding to the vast majority of known Drosophila genes. The dataset thus contains over 822800 separate datapoints. This website is intended to make the data easily accessible and comprehensible to mere mortals. FlyAtlas provides the most comprehensive view yet of expression in multiple tissues of Drosophila melanogaster. Meta-analysis of the data shows that a significant fraction of the genome is expressed with great tissue specificity in the adult, demonstrating the need for the functional genomic community to embrace a wide range of functional phenotypes. Well-known developmental genes are often reused in surprising tissues in the adult, suggesting new functions. The homologs of many human genetic disease loci show selective expression in the Drosophila tissues analogous to the affected human tissues, providing a useful filter for potential candidate genes. Additionally, the contributions of each tissue to the whole-fly array signal can be calculated, demonstrating the limitations of whole-organism approaches to functional genomics and allowing modeling of a simple tissue fractionation procedure that should improve detection of weak or tissue-specific signals.
Proper citation: FlyAtlas: the Drosophila gene expression atlas (RRID:SCR_005032) Copy
http://elderaffairs.state.fl.us/doea/BrainBank/index.php
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on January 11, 2023. A service and research oriented network of statewide regional brain bank sites. The intent of the brain bank program is to study brains of persons clinically diagnosed with dementia and provide tissue for research after their deaths. Mt. Sinai Medical Center contracts annually with the State of Florida to operate the primary brain bank. Coordinators at regional brain bank sites in Orlando, Tampa and Pensacola assist in recruiting participants and act as liaisons between the brain bank and participant families. Alzheimer's disease respite care program providers, memory disorder clinics, and model day care programs also recruit brain bank participants. The Florida Brain Bank supports collaborative research programs related to Alzheimer's disease and other degenerative disorders of the brain.
Proper citation: Florida Brain Bank (RRID:SCR_004936) Copy
The Alzheimer's and Dementia Resource Center (ADRC) facilitates tissue donations for the Brain Bank Research Program in order to help find better treatments, more diagnostic tools and a cure for Alzheimer's disease and dementia. The Brain Bank Program is administered by Mount Sinai Medical Center in Miami Beach and under contract with the Florida Department of Elder Affairs. ADRC also provides caregivers with the educational resources, spiritual comfort and emotional support. The ADRC facilitates training for professional caregivers that meets requirements for the Florida Department of Elder Affairs.
Proper citation: Alzheimer's and Dementia Resource Center (RRID:SCR_004924) Copy
http://www.rls.org/Page.aspx?pid=540
The Restless Legs Syndrome Foundation established the RLS Foundation Brain Bank at the Harvard Brain Tissue Resource Center in 2000. A part of the Harvard University medical system, the Center (housed at McLean Hospital and commonly referred to as The Brain Bank) began in 1978 as a centralized resource for the collection and distribution of human brain specimens for research and diagnostic studies. Over the years, hundreds of scientists from the nation''s top research and medical centers have requested tissue from The Brain Bank for their investigations. Because most of these studies can be carried out on a very small amount of tissue, each donated brain provides a large number of samples for many researchers. For comparative purposes, brain tissue is needed from healthy individuals, as well as from those who had RLS. When possible, a small portion of frozen tissue taken from each brain donated to the RLS Foundation Collection will be kept available to serve as a resource for future genetic testing. The process of donating your brain to RLS research is broken down into 5 steps. To view these steps, please read our Process Steps in RLS Brain Tissue Collection. To read about the process of donating brain tissue for research, visit our Brain Bank Tissue Donation page.
Proper citation: RLS Foundation Brain Bank (RRID:SCR_005089) 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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Welcome to the Neuroscience Information Framework Project, designed to serve the biomedical research community. NIF maintains the largest searchable collection of neuroscience data, the largest catalog of biomedical resources, and the largest ontology for neuroscience on the web. We welcome all feedback and suggestions and are actively looking for resource providers to make their resources accessible through NIF. Learn about the tools available to help you share your data and discover a dynamic inventory of Web-based neuroscience resources.
