Abstract

The purpose of this grant is to support continued development and maintenance of MriStudio software developed in Johns Hopkins University. MriStudio is comprehensive software for MR image processing and analysis with emphasis on white matter anatomy. MriStudio consists of three modules, DtiStudio, DiffeoMap, and RoiEditor. DtiStudio was introduced in 2001 and remains one of the most widely used programs to process diffusion tensor imaging (DTI) data. DiffeoMap and RoiEditor were introduced in 2007, which provides a very unique environment to perform a cutting-edge image transformation and atlas-based automated image segmentation. What is especially unique about DiffeoMap is, because our advanced brain mapping algorithms are highly CPU and memory intensive, it adopts Cloud-type architecture, through which users can have access to our supercomputation resource. Currently, there are more than 6,500 registered uses. In this application, we propose to extend this service to the community through the following aims;
Aim 1 : Continued user support through training and dissemination Currently, two major channels of training and dissemination are through web-based resources (manuals and videos) and hand-on monthly 2-day tutorials. As the functionalities of MriStudio expand, we will continuously update the online materials and tutorials.
Aim 2 : Extension of the functionality Aim 2-1: Advanced diffusion MRI analysis package: Through the collaboration with Dr. Tournier, spherical harmonic decomvolution algorithm will be implemented.
Aim 2 -2: Automated and probabilistic tractography: We will incorporate a probabilistic tractography method based on dynamic programing and automate the ROI definition process.
Aim 2 -3: Quality control reporting: We will deploy a comprehensive and quantitative quality control reporting system, which is extremely important for automated analysis of large-scale studies.
Aim 3 : Cross-platform extension by adopting web-based interface. We will develop web-based Cloud computation service, which will eliminate the platform-dependence.
Aim 4 : Completion of XNAT-based solution, we will develop a server-based automated analysis pipeline that is linked to a research image database system, called XNAT.
Aim 5 : Deployment of multi-atlas-based brain segmentation algorithm, we will deploy our multi-atlas technology in our server and make them available for testing to users through the Cloud computation system.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS084957-05
Application #
9282482
Study Section
Biodata Management and Analysis Study Section (BDMA)
Program Officer
Gnadt, James W
Project Start
2013-09-01
Project End
2018-05-31
Budget Start
2017-06-01
Budget End
2018-05-31
Support Year
5
Fiscal Year
2017
Total Cost
$354,375
Indirect Cost
$135,625

  Institution

Name
Johns Hopkins University
Department
Radiation-Diagnostic/Oncology
Type
Schools of Medicine
DUNS #
001910777
City
Baltimore
State
MD
Country
United States
Zip Code
21205

  Publications

Wu, Dan; Faria, Andreia V; Younes, Laurent et al. (2018) Whole-brain Segmentation and Change-point Analysis of Anatomical Brain MRI-Application in Premanifest Huntington's Disease. J Vis Exp :
Wu, Dan; Faria, Andreia V; Younes, Laurent et al. (2017) Mapping the order and pattern of brain structural MRI changes using change-point analysis in premanifest Huntington's disease. Hum Brain Mapp 38:5035-5050
Faria, Andreia V; Liang, Zifei; Miller, Michael I et al. (2017) Brain MRI Pattern Recognition Translated to Clinical Scenarios. Front Neurosci 11:578
Yang, Jie; Li, Qian; Wang, Zhongyu et al. (2017) Multimodality MRI assessment of grey and white matter injury and blood-brain barrier disruption after intracerebral haemorrhage in mice. Sci Rep 7:40358
Tang, Xiaoying; Miller, Michael I; Younes, Laurent (2017) BIOMARKER CHANGE-POINT ESTIMATION WITH RIGHT CENSORING IN LONGITUDINAL STUDIES. Ann Appl Stat 11:1738-1762
Sakamoto, Ryo; Yakami, Masahiro; Fujimoto, Koji et al. (2017) Temporal Subtraction of Serial CT Images with Large Deformation Diffeomorphic Metric Mapping in the Identification of Bone Metastases. Radiology 285:629-639
Morton, Paul D; Korotcova, Ludmila; Lewis, Bobbi K et al. (2017) Abnormal neurogenesis and cortical growth in congenital heart disease. Sci Transl Med 9:
Meoded, A; Faria, A V; Hartman, A L et al. (2016) Cerebral Reorganization after Hemispherectomy: A DTI Study. AJNR Am J Neuroradiol 37:924-31
Wu, Dan; Ceritoglu, Can; Miller, Michael I et al. (2016) Direct estimation of patient attributes from anatomical MRI based on multi-atlas voting. Neuroimage Clin 12:570-581
Wu, Dan; Ma, Ting; Ceritoglu, Can et al. (2016) Resource atlases for multi-atlas brain segmentations with multiple ontology levels based on T1-weighted MRI. Neuroimage 125:120-130

Showing the most recent 10 out of 28 publications