Deep learning of MRI contrast enhancement for mapping cerebral blood volume from single-modal non-contrast scans of aging and Alzheimer's disease brains

Liu, C., Zhu, N., Sun, H., Zhang, J., Feng, X., Gjerswold-Selleck, S., Sikka, D., Zhu, X., Liu, X., Nuriel, T., Wei, H.-J., Wu, C.-C., Vaughan, J. T., Laine, A. F., Provenzano, F. A., Small, S. A., & Guo, J. (2022). Deep learning of MRI contrast enhancement for mapping cerebral blood volume from single-modal non-contrast scans of aging and Alzheimer’s disease brains. Frontiers in Aging Neuroscience, 14. https://doi.org/10.3389/fnagi.2022.923673
Authors:
Chen Liu
Nanyan Zhu
Haoran Sun
Junhao Zhang
Xinyang Feng
Sabrina Gjerswold-Selleck
Dipika Sikka
Xuemin Zhu
Xueqing Liu
Tal Nuriel
Hong-Jian Wei
Cheng-Chia Wu
J. Thomas Vaughan
Andrew F. Laine
Frank A. Provenzano
Scott A. Small
Jia Guo
Affiliated Authors:
Nanyan Zhu
Haoran Sun
Junhao Zhang
Xinyang Feng
Sabrina Gjerswold-Selleck
Dipika Sikka
Xuemin Zhu
Xueqing Liu
Tal Nuriel
Hong-Jian Wei
Cheng-Chia Wu
J. Thomas Vaughan
Andrew F. Laine
Frank A. Provenzano
Scott A. Small
Jia Guo
Author Keywords:
aging
cbv
deep-learning
gadolinium
mri
alzheimer's disease
Publication Type:
Article
Unique ID:
10.3389/fnagi.2022.923673
Publication Date:
Data Source:
Scopus

Record Created: