Brain imaging research data will be shared in Biomedical Informatics Research NetworkSan Diego 16 October 2001 The National Center for Research Resources (NCRR), a component of the National Institutes of Health, has awarded more than $20 million to a consortium of universities coordinated by the University of California, San Diego (UCSD) to build the first nationwide high-performance computer environment to study diseases of the brain. Researchers linked over a high-speed network will share high-resolution animal and human brain images to allow analysis and comparison at many different scales. These capabilities will be the means for cross-institutional integration of data and expertise that can advance research on such brain-related diseases as multiple sclerosis, schizophrenia, Alzheimer's disease, and Parkinson's disease.
The Biomedical Informatics Research Network (BIRN), will be the nation's first test bed for sharing and mining data effectively in a site-independent manner for both basic and clinical research. BIRN will enable researchers to put into practice a multi-institutional, collaborative, technology-enabled approach that will be key to progress in neuroscience and medical science generally.
The BIRN project will share digital magnetic resonance images (MRI) and advanced 3D microscope images using high-bandwidth networking technologies. They will also share related genomic, structural, and gene expression data. Eventually, BIRN capabilities will scale across additional data repositories, resource centres, and regional core facilities.
UCSD will establish the Coordinating Center for the national BIRN project with information technology contributions from the NSF-supported National Partnership for Advanced Computational Infrastructure (NPACI), the San Diego Supercomputer Center (SDSC), and the newly formed California Institute for Telecommunications and Information Technology (Cal-(IT)²). BIRN is a major extension of a current grant to the NCRR's National Biomedical Computational Resource (NBCR), operated by UCSD (through CRBS). NBCR develops and deploys computational tools to benefit the biomedical community. CRBS will coordinate participation by the School of Medicine and campus researchers in biomedical areas.
The BIRN Coordinating Center at UCSD will work with Duke University, Massachusetts General Hospital, Brigham and Women's Hospital, Caltech, UCSD's School of Medicine, and UCLA to establish large-scale network connections and data-sharing facilities for the BIRN research projects.
Investigators at each of these sites have ongoing studies involving brain imagery. Their objective will be to raise the statistical accuracy and medical incisiveness of all their experiments by comparing and contrasting imagery from animal and human subjects.
Initially, data from ongoing experiments will be shared among two major BIRN subprojects. The Mouse BIRN Project is led by G. Allan Johnson, director of the Center for In Vivo Microscopy, an NCRR Resource at Duke University. Mouse BIRN will collaborate with Ellisman's National Center for Microscopy and Imaging Research, the Laboratory of Neuro Imaging directed by Arthur Toga at UCLA, and the Biological Imaging Center's MRI Division directed by Scott Fraser and Russell Jacobs at Caltech's Beckman Institute. They will extend studies by using two mouse models of human disease, one that develops a neurological disorder similar to multiple sclerosis and another in which one gene regulating the level of dopamine in the brain has been altered. Changes in brain dopamine levels occur in Parkinson's disease, schizophrenia, and several other brain disorders.
The Brain Morphology BIRN Project will be based on ongoing studies of human subjects. Led by Bruce Rosen, director of the Athinoula A. Martinos Center for Structural and Functional Biomedical Imaging (Massachusetts General Hospital/Massachusetts Institute of Technology/Harvard Medical School) and colleague Anders Dale, the project will rely on collaborators led by Ferenc Jolesz and Ron Kikinis of Harvard's Center for Neuroimaging Technologies (Brigham and Women's Hospital), Toga's group at UCLA, and three groups at NCRR-supported General Clinical Research Centers (GCRCs). One of these is at Duke, led by Ranga Krishnan; another is the GCRC at Massachusetts General Hospital, where the BIRN projects will be led by David Nathan and Randy Gollub.
The third GCRC group, which includes clinical investigators in the departments of psychiatry, neurosciences, and radiology at the UCSD School of Medicine, is led by Holmes. A major goal of this project is to develop technologies for enabling seamless interoperability of algorithms and computational tools for analysis and visualization of structural brain imaging data and for sharing of data and computational resources across the research network. The initial clinical focus of the project will be on depression and Alzheimer's disease.
Advanced networking for BIRN will be developed using the Internet 2/Abilene high-speed infrastructure. Eventually, BIRN will use the large-scale distributed supercomputing resources of the TeraGrid, being established by NSF under the Partnerships for Advanced Computational Infrastructure (PACI) programme. TeraGrid, the most powerful computing environment ever proposed for scientific research,will facilitate the acquisition and correlation of the huge, complex datasets.
Mr. Ellisman is also looking forward to the participation of Cal-(IT)², a new partnership of UCSD and the University of California, Irvine, to extend the Internet throughout the physical world. Additional supporters of BIRN include industry partners Oracle Corporation, Compaq Computer Corporation, and Sun Microsystems, which are providing database, storage, server, and computer-cluster technologies.
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