Difference between revisions of "Events:August 2008 NCBC AHM"

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*Newsletters, conferences, and other activities promoted by the centers.
 
*Newsletters, conferences, and other activities promoted by the centers.
 
**The semi-annual hands-on event called the "NA-MIC Project Week".
 
**The semi-annual hands-on event called the "NA-MIC Project Week".
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==Collaborations==
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http://wiki.na-mic.org/Wiki/index.php/NA-MIC_External_Collaborations
  
 
==NA-MIC Description==
 
==NA-MIC Description==

Revision as of 01:26, 7 August 2008

Home < Events:August 2008 NCBC AHM

Agenda

There will be a all hands meeting for the NCBC program at NIH.

* The dates are August 13-14 and the location will be on the NIH campus
  • Wednesday - August 13th, 8:30 AM - 6:30 PM
    • 8:30 - 8:45 AM Introduction by Dr. Zerhouni, or Dr Berg, Natcher Auditorium
    • 8:45 - 10:15 AM NCBC Presentations from PIs (Ron, 10 minutes)
    • 10:15 - 10:30 AM Big P and Building Bridges Summary (Russ Altman)
    • 10:30 - 11:00 AM Break
      • PI Meeting with Drs. Zerhouni, Berg, Lindberg, Natcher A
    • 11:00 - 12:15 PM Presentations from Jr. Faculty Natcher Auditorium (Tom Fletcher: 10 Minutes - "Statistical Analysis of Anatomy from Medical Images")
    • 12:15 - 1:30 PM Working Lunch: Working Groups and Building Bridges
    • 1:30 - 3:30 PM "Hot Topic" Presentations Natcher Auditorium (30 Mins - Ross Whitaker - "NAMIC Highlights: From Algorithms and Software to Biomedical Science"): The best science of the center, focus on Biology impact and DBPs. Share the highlights/titles by July 15th.
    • 3:30 - 3:45 PM Break
    • 3:45 - 5:15 PM "Hot Topic" Presentations continued
    • 5:15 - 6:00 PM Discussion of network DBP opportunities and Working Group #3
    • 6:30 - --- PM Open Reception at hotel with Industry Host. PIs and Project Team will join at 6:45PM. PI Meeting with Project team, Natcher A
  • Thursday - August 14th, 8:30 AM - 12:15 PM
    • 8:30 - 9:30 AM Presentation from each Center: Introduction to the science fair program demos and schedule (teaser for the Science Fair, Will Schroeder)
    • 9:30 - 11:00 AM Science Fair: "Three ways to use the NA-MIC kit" (Sonia Pujol)

Abstract: The National Alliance for Medical Imaging Computing (NA-MIC) develops a collection of tools and applications to improve the deployment of advanced image analysis methods to the research community. By combining science and technology, the NA-MIC kit fosters leading edge clinical research achievements in a collaborative and open-source environment. The Science Fair will present the NA-MIC kit through the perspectives of each of our three target audiences: clinical researchers, biomedical engineers and algorithm developers. Attendees will be exposed to potential uses of the NA-MIC kit in the context of 3D visualization to facilitate data interpretation, in the use of advanced image analysis to extract relevant information, and in the development of tailored plug-ins to extend image computing capabilities. Through demonstrations of image processing methods within the 3D Slicer deployment platform, and presentations of NA-MIC pragmatic teaching initiatives to translate techniques into skills, the Science Fair will provide an overview of the benefits of NA-MIC efforts to the research community.

    • 11:00 - 12:00 noon Working Groups Report Out, Future Plans, Discussion(s)
    • 12:00 - 12:15 PM Wrap-up and adjournment of main program (Conference ends for all but PIs, and Project Team and invited guests)
    • 12.15 - 1.15 PM Lunch (Conference ends for all but PIs) DBP discussion: Diabetes, MH, others
    • 1.15 - 3:00 PM Moderated Discussions with other NIH Programs: PIs: CaBIG, CTSA, BIRN, NIH Clinical Center, others
NA-MIC is one of seven National Centers for Biomedical Computing, part of the NIH roadmap initiative.


See here for the program of this years' all hands meeting.

NCBC-Logo.jpg


NCBC Presentation Materials

Russ Altman will be giving a 10 minutes overview over the entire NCBC program. He has reqested from each of the NCBCs the following information about accomplishments.

DBPs

A short summary of the original and renewal DBPs (this will also be used in the DBP sig breakout session). Basically title and one paragraph description.

1) During the first three years of NA-MIC, Core 3 consisted of four DBPs which were grouped into two thrusts.

  • Thrust 1 was directed by Drs. Shenton and Saykin. Thrust 2 was directed by Drs. Potkin and Kennedy. The focus of the research was to utilize neuroimaging tools to evaluate fronto-temporal connectivity abnormalities in schizophrenia, as well as abnormalities in hemispheric connections (i.e., corpus callosum), and abnormalities in the anterior limb of the internal capsule. Improved segmentation techniques, coregistration of structural MRI, DTI-MR, and fMRI, as well as novel processing tools for evaluating white matter fiber tracts and interregional functional connectivity were needed to accomplish these goals, and they were developed in conjunction with Cores 1 and 2.
  • Findings from this project, which involve both structural and functional information about brain abnormalities in schizophrenia, were correlated with neurocognitive, clinical, and behavioral data in order to understand further the relationship between brain abnormalities and cognition/behavior in schizophrenia.

2) Starting with the 4th year of NA-MIC, the DBPs were shifted from schizophrenia to lupus, autism, velocardiofacial syndrome (VCSF), and prostate cancer.

  • These DBPs now drive the computational research within NA-MIC. Specifically:
    • Drs. Jeremy Bockholt and Charles Gasparovi at the MIND Institute and the University of New Mexico are analyzing brain lesions in Neuropsychiatric Systemic Lupus Erythematosis,
    • Drs. Heather Hazlett and Joseph Piven at University of North Carolina, Chapel Hill are conducting a longitudinal MRI study of early brain development in Autism,
    • Dr. Marek Kubicki at Harvard Medical School is investigating VCSF as a genetic model for schizophrenia, and
    • Dr. Gabor Fichtinger at Queens University is developing a robotic percutaneous surgery system for treatment of prostate cancer.

Publications

1) A few key journal publications that have emerged directly from each center (say the top 5 per center). These should not be presented in a center-specific context but just to show the volume and quality of scientific production. You should be able to get these directly from your progress reports.

2) Some statistics of publications: total number in the last year or cumulative. Again, these should be presented in aggregate rather than by center.

Tools

A list of tools produced by the center with one or two highlights where you have high volume download or many journal citations.

  • NA-MIC Kit, which includes 3D Slicer, a popular visualization package (see here for un-curated download statistics--it is helpful if you sort by number of downloads to see the full impact).

Outreach

  • List of conferences/meetings where people in your center have explicitly advertised or demoed the NCBC’s activities.
    • MICCAI, RSNA, Human Brain Mapping, IGT Workshops at NIH
  • Newsletters, conferences, and other activities promoted by the centers.
    • The semi-annual hands-on event called the "NA-MIC Project Week".

Collaborations

http://wiki.na-mic.org/Wiki/index.php/NA-MIC_External_Collaborations

NA-MIC Description

NA-MIC is a multi-institutional, interdisciplinary team of computer scientists, software engineers, and medical investigators who develop computational tools for the analysis and visualization of medical image data. The purpose of the center is to provide the infrastructure and environment for the development of computational algorithms and open source technologies, and then oversee the training and dissemination of these tools to the medical research community. This world-class software and development environment serves as a foundation for accelerating the development and deployment of computational tools that are readily accessible to the medical research community. The team combines cutting-edge computer vision research (to create medical imaging analysis algorithms) with state of the art software engineering techniques (based on "extreme" programming techniques in a distributed, open-source environment) to enable computational examination of both basic neuroscience and neurological disorders. In developing this infrastructure resource, the team is significantly expanding upon proven open systems technology and platforms.

The driving biological projects for NA-MIC include the study of autism, lupus, prostate cancer, VCSF, and schizophrenia, but the methods are applicable to many other diseases. The computational tools developed in NA-MIC are used to perform image-analysis at a range of scales, and across a range of modalities including diffusion MRI, quantitative ECG, and metabolic and receptor PET, but potentially including microscopic, genomic, and other image data. It applies to image data from individual patients, and to studies executed across large populations. The data is taken from subjects across a wide range of time scales and ultimately apply to a broad range of diseases in a broad range of organs.