United States
Assistant Professor, The Russell H. Morgan Department of Radiology and Radiological Science, Johns Hopkins University School of Medicine.
Yun Zhou
Address:
The Johns Hopkins Hospital 600 N. Wolfe Street Halsted Building, Room B173 Baltimore, MD 21287, USA
Research Interests:
Medical Imaging Processing, Dynamic PET studies, Image Processing, Pattern Recognition, Digital Signal Processing, Signal Processing, Digital Image Processing, Signal Analysis, Image Data Analysis, Biomedical Signal Processing, Biomedical Imaging.
Biography:
Research Publications:
- Y. Zhou, W. Ye, J. R. Brasić, and D. F. Wong, “Multi-graphical analysis of dynamic PET.,” NeuroImage, vol. 49, pp. 2947-2957, 2010.
- Y. Zhou, W. Ye, J. R. Brasić, A. H. Crabb, J. Hilton et al., “A consistent and efficient graphical analysis method to improve the quantification of reversible tracer binding in radioligand receptor dynamic PET studies.,” NeuroImage, vol. 44, pp. 661-670, 2009.
- Y. Zhou, S. M. Resnick, W. Ye, H. Fan, D. P. Holt et al., “Using a reference tissue model with spatial constraint to quantify [11C]Pittsburgh compound B PET for early diagnosis of Alzheimer's disease.,” NeuroImage, vol. 36, pp. 298-312, 2007.
- Y. Zhou, M.-K. Chen, C. J. Endres, W. Ye, J. R. Brasić et al., “An extended simplified reference tissue model for the quantification of dynamic PET with amphetamine challenge.,” NeuroImage, vol. 33, pp. 550-563, 2006.
- Y. Zhou, C. J. Endres, J. R. Brasić, S. C. Huang, and D. F. Wong, "Linear regression with spatial constraint to generate parametric images of ligand-receptor dynamic PET studies with a simplified reference tissue model.," NeuroImage, 2003, pp. 975-989.
- Y. Zhou, S. C. Huang, M. Bergsneider, and D. F. Wong, “Improved parametric image generation using spatial-temporal analysis of dynamic PET studies,” NeuroImage, vol. 15, pp. 697-707, 2002.
- Y. Zhou, S. C. Huang, and M. Bergsneider, “Linear ridge regression with spatial constraint for generation of parametric images in dynamic positron emission tomography studies,” IEEE Transactions on Nuclear Science, vol. 48, pp. 125-130, 2001.