PT - JOURNAL ARTICLE AU - Chen, K.T. AU - Tesfay, R. AU - Koran, M.E.I. AU - Ouyang, J. AU - Shams, S. AU - Young, C.B. AU - Davidzon, G. AU - Liang, T. AU - Khalighi, M. AU - Mormino, E. AU - Zaharchuk, G. TI - Generative Adversarial Network–Enhanced Ultra-Low-Dose [<sup>18</sup>F]-PI-2620 τ PET/MRI in Aging and Neurodegenerative Populations AID - 10.3174/ajnr.A7961 DP - 2023 Sep 01 TA - American Journal of Neuroradiology PG - 1012--1019 VI - 44 IP - 9 4099 - http://www.ajnr.org/content/44/9/1012.short 4100 - http://www.ajnr.org/content/44/9/1012.full SO - Am. J. Neuroradiol.2023 Sep 01; 44 AB - BACKGROUND AND PURPOSE: With the utility of hybrid τ PET/MR imaging in the screening, diagnosis, and follow-up of individuals with neurodegenerative diseases, we investigated whether deep learning techniques can be used in enhancing ultra-low-dose [18F]-PI-2620 τ PET/MR images to produce diagnostic-quality images.MATERIALS AND METHODS: Forty-four healthy aging participants and patients with neurodegenerative diseases were recruited for this study, and [18F]-PI-2620 τ PET/MR data were simultaneously acquired. A generative adversarial network was trained to enhance ultra-low-dose τ images, which were reconstructed from a random sampling of 1/20 (approximately 5% of original count level) of the original full-dose data. MR images were also used as additional input channels. Region-based analyses as well as a reader study were conducted to assess the image quality of the enhanced images compared with their full-dose counterparts.RESULTS: The enhanced ultra-low-dose τ images showed apparent noise reduction compared with the ultra-low-dose images. The regional standard uptake value ratios showed that while, in general, there is an underestimation for both image types, especially in regions with higher uptake, when focusing on the healthy-but-amyloid-positive population (with relatively lower τ uptake), this bias was reduced in the enhanced ultra-low-dose images. The radiotracer uptake patterns in the enhanced images were read accurately compared with their full-dose counterparts.CONCLUSIONS: The clinical readings of deep learning–enhanced ultra-low-dose τ PET images were consistent with those performed with full-dose imaging, suggesting the possibility of reducing the dose and enabling more frequent examinations for dementia monitoring.AC1Gwet's agreement coefficient 1ADAlzheimer's diseaseCNNconvolutional neural networkGANgenerative adversarial networkSUVRstandard uptake value ratio