Nguyen, X.V.; Nelakurti, D.D.; Dikici, E.; Candemir, S.; Boulter, D.J.; Prevedello, L.M.
Virtual CT Myelography: A Patch-Based Machine Learning Model to Improve Intraspinal Soft Tissue Visualization on Unenhanced Dual-Energy Lumbar Spine CT. Information 2022, 13, 412.
https://doi.org/10.3390/info13090412
AMA Style
Nguyen XV, Nelakurti DD, Dikici E, Candemir S, Boulter DJ, Prevedello LM.
Virtual CT Myelography: A Patch-Based Machine Learning Model to Improve Intraspinal Soft Tissue Visualization on Unenhanced Dual-Energy Lumbar Spine CT. Information. 2022; 13(9):412.
https://doi.org/10.3390/info13090412
Chicago/Turabian Style
Nguyen, Xuan V., Devi D. Nelakurti, Engin Dikici, Sema Candemir, Daniel J. Boulter, and Luciano M. Prevedello.
2022. "Virtual CT Myelography: A Patch-Based Machine Learning Model to Improve Intraspinal Soft Tissue Visualization on Unenhanced Dual-Energy Lumbar Spine CT" Information 13, no. 9: 412.
https://doi.org/10.3390/info13090412
APA Style
Nguyen, X. V., Nelakurti, D. D., Dikici, E., Candemir, S., Boulter, D. J., & Prevedello, L. M.
(2022). Virtual CT Myelography: A Patch-Based Machine Learning Model to Improve Intraspinal Soft Tissue Visualization on Unenhanced Dual-Energy Lumbar Spine CT. Information, 13(9), 412.
https://doi.org/10.3390/info13090412
