Visualization is the process of going from scanned images of a patient to 3D models that can be used and intra-operative surgical planning, simulation and navigation consists of various steps involving image processing, visualization and computer graphics. Therefore a comprehensive, integrated set of tools are required to make the data-flow efficient and robust. In this section the visualization process and how it relates to 3D medical imaging is described in detail. Visualization is an exploration of data, an attempt to extract structure, order and meaning from accompanying extraneous data and irrelevant noise. The visualization process transforms the original scanner data into forms more suitable for high level tasks like surgical planning and stimulation or intraoperative navigation. To be able to support the surgeons with these high level task this must be efficient and robust. The specific tools described in proposal represent a combination of our experience with software engineering in a medical environment- our acquired knowledge about specific details of image editing, image processing, segmentation, and visual- These two qualities, combined with our ability to disseminate these tools and thus support a geographically and intellectually diverse user base, are perhaps our greatest and most unique strength. The proposed Center does not specialize in only visualization. Visualization is only one part of the complete medical computational and professional environment. As a result, our visualization tools can be more specialized and adapted to the needs of the medical community that we serve. Towards this goal, we have identified a set of core aspects of the visualization process that are important to meet the needs of medical research in the context of a Center

Agency
National Institute of Health (NIH)
Institute
National Center for Research Resources (NCRR)
Type
Biotechnology Resource Grants (P41)
Project #
3P41RR013218-03S1
Application #
6424324
Study Section
Project Start
2000-08-01
Project End
2001-07-31
Budget Start
Budget End
Support Year
3
Fiscal Year
2001
Total Cost
Indirect Cost
Name
Brigham and Women's Hospital
Department
Type
DUNS #
071723621
City
Boston
State
MA
Country
United States
Zip Code
02115
Gallardo, Guillermo; Wells 3rd, William; Deriche, Rachid et al. (2018) Groupwise structural parcellation of the whole cortex: A logistic random effects model based approach. Neuroimage 170:307-320
Saito, Yukiko; Kubicki, Marek; Koerte, Inga et al. (2018) Impaired white matter connectivity between regions containing mirror neurons, and relationship to negative symptoms and social cognition, in patients with first-episode schizophrenia. Brain Imaging Behav 12:229-237
Ratner, Vadim; Gao, Yi; Lee, Hedok et al. (2017) Cerebrospinal and interstitial fluid transport via the glymphatic pathway modeled by optimal mass transport. Neuroimage 152:530-537
Sastry, Rahul; Bi, Wenya Linda; Pieper, Steve et al. (2017) Applications of Ultrasound in the Resection of Brain Tumors. J Neuroimaging 27:5-15
Chen, Yongxin; Georgiou, Tryphon T; Ning, Lipeng et al. (2017) Matricial Wasserstein-1 Distance. IEEE Control Syst Lett 1:14-19
Niethammer, Marc; Pohl, Kilian M; Janoos, Firdaus et al. (2017) ACTIVE MEAN FIELDS FOR PROBABILISTIC IMAGE SEGMENTATION: CONNECTIONS WITH CHAN-VESE AND RUDIN-OSHER-FATEMI MODELS. SIAM J Imaging Sci 10:1069-1103
Chen, Yongxin; Cruz, Filemon Dela; Sandhu, Romeil et al. (2017) Pediatric Sarcoma Data Forms a Unique Cluster Measured via the Earth Mover's Distance. Sci Rep 7:7035
Schabdach, Jenna; Wells 3rd, William M; Cho, Michael et al. (2017) A Likelihood-Free Approach for Characterizing Heterogeneous Diseases in Large-Scale Studies. Inf Process Med Imaging 10265:170-183
Wachinger, Christian; Brennan, Matthew; Sharp, Greg C et al. (2017) Efficient Descriptor-Based Segmentation of Parotid Glands With Nonlocal Means. IEEE Trans Biomed Eng 64:1492-1502
Chen, Yongxin; Georgiou, Tryphon; Pavon, Michele et al. (2017) Robust transport over networks. IEEE Trans Automat Contr 62:4675-4682

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