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http://www.medschool.lsuhsc.edu/neuroscience/
Research center that takes multidisciplinary approach to neuroscience education and research. Research programs on molecular and cellular bases of neural diseases are the center of the innovative educational programs. Primary mission is to foster and conduct science that advances understanding of brain function and diseases that affect nervous system.
Proper citation: Louisiana State University School of Medicine Neurosciences Center (RRID:SCR_006446) Copy
The BioCurrents Research Center (BRC) is an integrated technology resource of the NIH:NCRR. The activities of the Center focus on molecular physiology as it relates to the cell function and disease. Our particular interest is how the dynamics of cell responses are reflected in the chemical profiles of microdomains surrounding single living cells. In order to measure complex cellular boundary layers, the BRC has specialized in the development of extremely sensitive signal acquisition and processing methods along with miniaturized electrochemical sensor designs. The technique is non-invasive and termed self-referencing. Since its establishment in 1996, the BRC has directed its technological research and development to the design and application of ultra-microelectrodes (tip diameters of less than 10m) tailored for the detection of specific chemicals. These have been successfully applied to the boundary layer profiles of many different cell types, with thematic strength in diabetes research, reproductive health and development (see collaborative profiles). More recently, it is changing its focus to technical developments, enhancing the integrative approach to cell function. To understand a cell as a dynamic and integrated whole, BRC must be able to examine responses from different domains as near to real time and as synchronously as possible. To this end, it is developing imaging capabilities to work in parallel with electrochemistry and conventional electrophysiological techniques. Imaging includes a spinning disc confocal, as well as a low light/luminescent imager designed and built within the BRC. The technologies developed or under development are in high demand within the biomedical community. Over 40 investigators work with the Center each year in a collaborative or service capacity. Over 80 of our visitor pool is NIH funded, representing approximately 25 NIH divisions and institutes. As part of our training and dissemination program we host occasional workshops at major national and international meetings, train a significant number of new investigators each year and host graduate students undertaking portions of their thesis dissertation using our technologies. In dissemination we advise on, and install, electrochemical systems in off campus research endeavors, both academic and industrial.
Proper citation: BioCurrents Research Center (RRID:SCR_002020) Copy
http://www.adinstruments.com/products/software/modules/neuro_explorer.php
THIS RESOURCE IS NO LONGER IN SERVICE, documented on May 19, 2018; A provider of computer-based data acquisition and analysis systems for life science. Products enable users to record and analyze life science data quickly and efficiently. ADInstruments product range is based on the PowerLab data acquisition system with LabChart software. The PowerLab system (also MacLab) is used in universities, hospitals, research institutes, pharmaceutical companies, contract research organizations and other private industry research sectors.
Proper citation: ADInstruments - Data Acquisition Systems for Life Science (RRID:SCR_001620) Copy
http://www.immundiagnostik.com
Commercial company that develops and provides laboratory diagnostics and other medical research products.
Proper citation: Immundiagnostik (RRID:SCR_001977) Copy
http://aws.amazon.com/1000genomes/
A dataset containing the full genomic sequence of 1,700 individuals, freely available for research use. The 1000 Genomes Project is an international research effort coordinated by a consortium of 75 companies and organizations to establish the most detailed catalogue of human genetic variation. The project has grown to 200 terabytes of genomic data including DNA sequenced from more than 1,700 individuals that researchers can now access on AWS for use in disease research free of charge. The dataset containing the full genomic sequence of 1,700 individuals is now available to all via Amazon S3. The data can be found at: http://s3.amazonaws.com/1000genomes The 1000 Genomes Project aims to include the genomes of more than 2,662 individuals from 26 populations around the world, and the NIH will continue to add the remaining genome samples to the data collection this year. Public Data Sets on AWS provide a centralized repository of public data hosted on Amazon Simple Storage Service (Amazon S3). The data can be seamlessly accessed from AWS services such Amazon Elastic Compute Cloud (Amazon EC2) and Amazon Elastic MapReduce (Amazon EMR), which provide organizations with the highly scalable compute resources needed to take advantage of these large data collections. AWS is storing the public data sets at no charge to the community. Researchers pay only for the additional AWS resources they need for further processing or analysis of the data. All 200 TB of the latest 1000 Genomes Project data is available in a publicly available Amazon S3 bucket. You can access the data via simple HTTP requests, or take advantage of the AWS SDKs in languages such as Ruby, Java, Python, .NET and PHP. Researchers can use the Amazon EC2 utility computing service to dive into this data without the usual capital investment required to work with data at this scale. AWS also provides a number of orchestration and automation services to help teams make their research available to others to remix and reuse. Making the data available via a bucket in Amazon S3 also means that customers can crunch the information using Hadoop via Amazon Elastic MapReduce, and take advantage of the growing collection of tools for running bioinformatics job flows, such as CloudBurst and Crossbow.
Proper citation: 1000 Genomes Project and AWS (RRID:SCR_008801) Copy
http://www.nitrc.org/projects/bstp/
A free collection of MRI brain images for testing segmentation algorithms. It is available for download to assess the accuracy, reproducibility and sensitivity of MRI segmentation software. It includes data from infants and adults as well as patients with Alzheimer's disease.
Proper citation: Brain Segmentation Testing Protocol (RRID:SCR_009445) Copy
http://www.rand.org/labor/FLS/MHSS.html
A data set of the health and socioeconomic factors that affect the elderly in Matlab, a region of rural Bangladesh. The survey captures measurements and statistics such as adult survival, health status, health care utilization, resource flows between generations and the impact of community services and infrastructure on adult health care. Data was collected through surveys that touch on four topics: household and individual information; determinants of natural fertility; migration out of the community; and community and provider survey of healthcare and education infrastructure.
Proper citation: Matlab Health and Socio-Economic Survey (RRID:SCR_008942) Copy
http://www.nichd.nih.gov/research/supported/pages/tbi.aspx
The National Center for Medical Rehabilitation Research (NCMRR) established a multi-center network of sites that are working together to design clinical intervention protocols and measures of outcome for TBI. Through rigorous patient evaluation, using common protocols and interventions designed for multiple points of care����??including the accident scene, emergency room, intensive care unit, rehabilitation and long-term follow-up����??the NCMRR TBI Clinical Trials Network can study the required numbers of patients to provide answers more rapidly than individual centers acting alone. This interdisciplinary research Network is designed to evaluate the relationship among acute care practice, rehabilitation strategies, and the long-term functional outcome of TBI patients����??that is, to identify which intervention variables result in improvements in long-term outcomes. Taking advantage of the network model structure has allowed TBI research to progress toward a number of clinical research goals. Specifically, the NCMRR wants to highlight two major achievements to date. First, the TBI Network created a profile of its typical patient to determine the number of patients with different clinical features who might be eligible for future studies and to help estimate recruitment times necessary. Second, Network researchers are developing clinical treatment guidelines and procedures for all points in the continuum of care, including TBI Clinical Trials Network Guidelines for surgical care, systems-based protocol for severe and moderate TBI patients, deep-vein thrombosis prophylaxis procedures, and rehabilitation guidelines for physical therapy, speech-language pathology, occupational therapy, and neuropsychology.
Proper citation: Traumatic Brain Injury Clinical Trials Network (RRID:SCR_013165) Copy
http://www.viprbrc.org/brc/home.do?decorator=vipr
Provides searchable public repository of genomic, proteomic and other research data for different strains of pathogenic viruses along with suite of tools for analyzing data. Data can be shared, aggregated, analyzed using ViPR tools, and downloaded for local analysis. ViPR is an NIAID-funded resource that support the research of viral pathogens in the NIAID Category A-C Priority Pathogen lists and those causing (re)emerging infectious diseases. It provides a dedicated gateway to SARS-CoV-2 data that integrates data from external sources (GenBank, UniProt, Immune Epitope Database, Protein Data Bank), direct submissions, analysis pipelines and expert curation, and provides a suite of bioinformatics analysis and visualization tools for virology research.
Proper citation: Virus Pathogen Resource (ViPR) (RRID:SCR_012983) Copy
http://www.kennedykrieger.org/kki_2nd_inside.jsp?pid=3
Kennedy Krieger Institute is an institution dedicated to improving the lives of children and adolescents with pediatric developmental disabilities through patient care, special education, research, and professional training. Kennedy Kriegers clinical programs offer an interdisciplinary approach in treatment tailored to the individual needs of each child. Services include over 40 outpatient clinics; neurobehavioral, rehabilitation, and pediatric feeding disorders inpatient units; plus several home and community programs providing services to assist families. At Kennedy Krieger, there is no shortage of clinical programs to meet the specialized needs of children and adolescents with developmental disabilities. More than 35 different outpatient clinics, three inpatient units, several home and community programs and clinical laboratories all address the specific conditions of children with a wide range of disorders. Kennedy Krieger is recognized for its range of services in areas including autism, cerebral palsy, spina bifida, neurorehabilitation and feeding disorders. Kennedy Krieger school, is a nationally recognized Blue Ribbon School of Excellence, and is a leader in providing model programs of innovative education for children, adolescents and young adults with a wide range of learning, emotional, physical, neurological, and developmental disabilities. Faculty at Kennedy Krieger are among some of the worlds leading experts in this field and are attuned to the special needs of this population. These faculty have made crucial medical discoveries leading to innovative treatments and have improved the lives of individuals with disabilities. In addition to providing evaluation, rehabilitation, educational services and cutting edge research on behalf of children with brain related disabilities, Kennedy Krieger also provides professional training by renowned experts dedicated to increasing the number of qualified specialists in the United States and abroad. Children treated at Kennedy Krieger are seen by a variety of health care professionals working together in one or more of the Institutes clinical disciplines or departments. These highly trained professionals work directly with the Institutes medical staff to provide coordinated, interdisciplinary care tailored to the special needs of each child. This interdisciplinary approach puts Kennedy Krieger at the forefront in providing patient care for individuals with multiple developmental disabilities. Additionally, Kennedy Krieger Institutes Department of Special Education includes a number of programs that offer service to children with disabilities in a variety of settings. Kennedy Krieger School programs offer special education and related services to students aged 3-21 in three day-school settings and in partnership settings within public schools. For your convenience, a list of diagnoses/disorders treated at Kennedy Krieger Institute has been compiled to provide helpful related information for each diagnosis/disorder and include definitions, symptoms, treatment programs available at Kennedy Krieger, research being conducted at Kennedy Krieger, press releases, Potential articles and links to other helpful additional resources and websites outside the Institute.
Proper citation: Kennedy Krieger Institute: Diagnoses/Disorders (RRID:SCR_013260) Copy
http://www.ritsumei.ac.jp/~akitaoka/index-e.html
This portal describes Professor Kitaoka Akiyoshi''s research in the science of visual illusions. Working as an associate professor at the Ritsumeiken University, Department of Psychology, he is one of the few researchers in Japan to be actively researching in this field of study. Professor Kitaoka defines an illusion as a misperception of a real object, adding that defining what is real is a difficult task that depends on recognition and epistemology. An illusion is formed when the perceived characteristics of the object differ from the physical characteristics. Professor Kitaoka first started studying visual illusions when working at the Tokyo Metropolitan Institute for Neuroscience, before coming to RU. He currently researches geometrical, color, lightness, and motion illusions and visual completion, and has become a prominent expert in the field, publishing a wide range of articles on the subject as well as the popular books Trick Eyes, Trick Eyes 2, Trick Eyes Graphics, and the Handbook of the Science of Illusion. To create his illusions, Professor Kitaoka uses graphic design software such as CorelDRAW, Adobe Illustrator, and the drawing software included in Microsoft Word in addition to making use of programming languages like Borland Delphi (Pascal). All of the images set out to test hypotheses that serve to advance his study of illusions and their applications for other visual functions. The goal of his research is to test visual mechanisms through visual illusions.
Proper citation: Akiyoshis illusion pages (RRID:SCR_013187) Copy
http://www.jsps.go.jp/english/
Research and outreach organization dedicated to promoting science, research and education. The society has four main objectives, including building international cooperative networks, enhancing education and research at universities, building evidence-based science-promotion systems and creating diverse world level knowledge.
Proper citation: Japan Society for the Promotion of Science (RRID:SCR_001085) Copy
http://www.nationalacademies.org/nrc/
Private, non-profit institution dedicated to utilizing knowledge in science, engineering, technology and health to improve government decision making and public policy as well as increase public education and understanding. The council collects, analyzes and shares information and knowledge through activities such as consensus studies, meetings and workshops, and program and research management.
Proper citation: National Research Council (RRID:SCR_000446) Copy
http://neuroscience.berkeley.edu/
Portal for UC Berkeley's neuroscience research center. The group focuses on interdisciplinary collaboration between neuroscientists and members of UC Berkeley programs in engineering, chemistry, statistics, and computation. It also runs the neuroscience PhD program.
Proper citation: Helen Wills Neuroscience Institute (RRID:SCR_001991) Copy
The National Bioscience Database Center (NBDC) intends to integrate all databases for life sciences in Japan, by linking each database with expediency to maximize convenience and make the entire system more user-friendly. We aim to focus our attention on the needs of the users of these databases who have all too often been neglected in the past, rather than the needs of the people tasked with the creation of databases. It is important to note that we will continue to honor the independent integrity of each database that will contribute to our endeavor, as we are fully aware that each database was originally crafted for specific purposes and divergent goals. Services: * Database Catalog - A catalog of life science related databases constructed in Japan that are also available in English. Information such as URL, status of the database site (active vs. inactive), database provider, type of data and subjects of the study are contained for each database record. * Life Science Database Cross Search - A service for simultaneous searching across scattered life-science databases, ranging from molecular data to patents and literature. * Life Science Database Archive - maintains and stores the datasets generated by life scientists in Japan in a long-term and stable state as national public goods. The Archive makes it easier for many people to search datasets by metadata in a unified format, and to access and download the datasets with clear terms of use. * Taxonomy Icon - A collection of icons (illustrations) of biological species that is free to use and distribute. There are more than 200 icons of various species including Bacteria, Fungi, Protista, Plantae and Animalia. * GenLibi (Gene Linker to bibliography) - an integrated database of human, mouse and rat genes that includes automatically integrated gene, protein, polymorphism, pathway, phenotype, ortholog/protein sequence information, and manually curated gene function and gene-related or co-occurred Disease/Phenotype and bibliography information. * Allie - A search service for abbreviations and long forms utilized in life sciences. It provides a solution to the issue that many abbreviations are used in the literature, and polysemous or synonymous abbreviations appear frequently, making it difficult to read and understand scientific papers that are not relevant to the reader's expertise. * inMeXes - A search service for English expressions (multiple words) that appear no less than 10 times in PubMed/MEDLINE titles or abstracts. In addition, you can easily access the sentences where the expression was used or other related information by clicking one of the search results. * HOWDY - (Human Organized Whole genome Database) is a database system for retrieving human genome information from 14 public databases by using official symbols and aliases. The information is daily updated by extracting data automatically from the genetic databases and shown with all data having the identifiers in common and linking to one another. * MDeR (the MetaData Element Repository in life sciences) - a web-based tool designed to let you search, compare and view Data Elements. MDeR is based on the ISO/IEC 11179 Part3 (Registry metamodel and basic attributes). * Human Genome Variation Database - A database for accumulating all kinds of human genome variations detected by various experimental techniques. * MEDALS - A portal site that provides information about databases, analysis tools, and the relevant projects, that were conducted with the financial support from the Ministry of Economy, Trade and Industry of Japan.
Proper citation: NBDC - National Bioscience Database Center (RRID:SCR_000814) Copy
http://www.articleofthefuture.com/about
A web application which provides interactive and in depth reading of online scientific articles published in Elsevier. While reading an article, users can access interactive data sources such as Protein Viewer and Google Maps as well as links to references and databases. Prototypes for seven different scientific areas are currently available for more specific research, but all scientific disciplines are represented within Article of the Future.
Proper citation: Article of the Future (RRID:SCR_013812) Copy
Ratings or validation data are available for this resource
http://www.olympus-lifescience.com/en/software/cellsens/
Software suite for image acquisition and analysis. The software can be paired with high-quality cameras to maximize output quality and export it for sharing and research applications.
Proper citation: Olympus cellSens Software (RRID:SCR_014551) Copy
Collection of databases with standalone databases, which gives opportunity for customers to integrate the data into their internal tools and databases, as well as online databases, that are available to the customers from a dedicated website where an individual can query and export the data in the selected format. The standalone database topics include medicinal chemistry, drugs and target class based compounds. The online databases are comprised of three major compilations: GVK BIO Online Structure Activity Relation Database (GOSTAR), GVK BIO Biomarker Database (GOBIOM), and Clinical Trial Outcome Database (CTOD).
Proper citation: GVKBIO databases (RRID:SCR_014893) Copy
Database of commercially accessible screening compounds from international chemistry suppliers. iResearchLibrary is updated on a weeky basis and offers support for creating internal screening libraries containing commercially accessible compounds, developing exploratory and targeted libraries, selecting commercially accessible compounds for SAR, lead expansion, and hit follow-up projects, and using structures for pharmacophore searching, virtual screening and other computational work.
Proper citation: iResearch Library (RRID:SCR_014890) Copy
University-affiliated center that promotes research in diabetes and related metabolic and endocrine disorders at Yale University.
Proper citation: Yale Diabetes Research Center (RRID:SCR_015142) 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.
