The aging of the population over the next quarter century will increase the already substantial personal, social and governmental costs of Alzheimer's disease. The future of healthcare of AD lies in the early diagnosis and treatment of AD. Neuroimaging is playing an increasingly critical role in research and clinical practice as valid early markers could be developed for both disease detection and monitoring. This research will come up with novel computational tools for computer aided diagnosis and followup of Alzheimer's disease, which is a substantial contribution to an important problem of general public health. During the award period, the applicant's career development focuses on developing novel computational methods for computer aided diagnosis and follow-up of AD. The applicant's career training focuses on 1) obtaining in-depth knowledge and hands-on experience in medical imaging;2) obtaining in- depth knowledge in clinical neuroanatomy;3) obtaining in-depth understanding of clinical diagnosis and follow-up of AD;4) obtaining in-depth knowledge of biostatistics;5) obtaining moderate knowledge in neuropathology, neurobiology, neurology, neurogenetics of AD. In this 4-year K01 proposal, the applicant will develop novel neuroimage analysis algorithms for Computer Aided Diagnosis and Follow-up of Alzheimer's Diseases (CADFAD). Specifically, we will 1) Develop and validate novel high-dimensional volume registration method based on deformation invariant attribute vectors (DIAV);(2) Develop and validate novel cortical surface based quantitation methods, including cortical surface reconstruction, registration, cortical attributes mapping, statistical inference, and visualization;and (3) Develop and validate novel gray matter diffusivity quantitation methods.

Agency
National Institute of Health (NIH)
Institute
National Institute of Biomedical Imaging and Bioengineering (NIBIB)
Type
Research Scientist Development Award - Research & Training (K01)
Project #
5K01EB006878-04
Application #
7656641
Study Section
Special Emphasis Panel (ZEB1-OSR-D (M1))
Program Officer
Erim, Zeynep
Project Start
2007-08-20
Project End
2011-07-31
Budget Start
2009-08-01
Budget End
2010-07-31
Support Year
4
Fiscal Year
2009
Total Cost
$120,010
Indirect Cost
Name
University of Georgia
Department
Biostatistics & Other Math Sci
Type
Schools of Arts and Sciences
DUNS #
004315578
City
Athens
State
GA
Country
United States
Zip Code
30602
Zhao, Shijie; Han, Junwei; Lv, Jinglei et al. (2015) Supervised dictionary learning for inferring concurrent brain networks. IEEE Trans Med Imaging 34:2036-45
Fang, Jun; Hu, Xintao; Han, Junwei et al. (2015) Data-driven analysis of functional brain interactions during free listening to music and speech. Brain Imaging Behav 9:162-77
Li, Xiang; Zhu, Dajiang; Jiang, Xi et al. (2014) Dynamic functional connectomics signatures for characterization and differentiation of PTSD patients. Hum Brain Mapp 35:1761-78
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Deng, Fan; Jiang, Xi; Zhu, Dajiang et al. (2014) A functional model of cortical gyri and sulci. Brain Struct Funct 219:1473-91
Chen, Mo; Han, Junwei; Hu, Xintao et al. (2014) Survey of encoding and decoding of visual stimulus via FMRI: an image analysis perspective. Brain Imaging Behav 8:7-23
Jiang, Xi; Zhu, Dajiang; Li, Kaiming et al. (2014) Predictive models of resting state networks for assessment of altered functional connectivity in mild cognitive impairment. Brain Imaging Behav 8:542-57
Zhang, Tuo; Chen, Hanbo; Guo, Lei et al. (2014) Characterization of U-shape streamline fibers: Methods and applications. Med Image Anal 18:795-807
Zhang, Tuo; Zhu, Dajiang; Jiang, Xi et al. (2013) Predicting cortical ROIs via joint modeling of anatomical and connectional profiles. Med Image Anal 17:601-15
Zhu, Dajiang; Li, Kaiming; Guo, Lei et al. (2013) DICCCOL: dense individualized and common connectivity-based cortical landmarks. Cereb Cortex 23:786-800

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