RT Journal Article SR Electronic T1 Characterization of 3 Novel Tau Radiopharmaceuticals, 11C-RO-963, 11C-RO-643, and 18F-RO-948, in Healthy Controls and in Alzheimer Subjects JF Journal of Nuclear Medicine JO J Nucl Med FD Society of Nuclear Medicine SP 1869 OP 1876 DO 10.2967/jnumed.118.209916 VO 59 IS 12 A1 Dean F. Wong A1 Robert A. Comley A1 Hiroto Kuwabara A1 Paul B. Rosenberg A1 Susan M. Resnick A1 Susanne Ostrowitzki A1 Cristina Vozzi A1 Frank Boess A1 Esther Oh A1 Constantine G. Lyketsos A1 Michael Honer A1 Luca Gobbi A1 Gregory Klein A1 Noble George A1 Lorena Gapasin A1 Kelly Kitzmiller A1 Josh Roberts A1 Jeff Sevigny A1 Ayon Nandi A1 James Brasic A1 Chakradhar Mishra A1 Madhav Thambisetty A1 Abhay Moghekar A1 Anil Mathur A1 Marilyn Albert A1 Robert F. Dannals A1 Edilio Borroni YR 2018 UL http://jnm.snmjournals.org/content/59/12/1869.abstract AB 11C-RO-963, 11C-RO-643, and 18F-RO-948 (previously referred to as 11C-RO6924963, 11C-RO6931643, and 18F-RO6958948, respectively) have been reported as promising PET tracers for tau imaging based on in vitro and preclinical PET data. Here we describe the first, to our knowledge, human evaluation of these novel radiotracers. Methods: Amyloid PET–positive Alzheimer disease (AD) subjects and younger controls each received 2 different tau tracers. Dynamic 90-min scans were obtained after bolus injection of 11C-RO-963, 11C-RO-643, or 18F-RO-948. Arterial blood sampling was performed on 11 healthy controls and 11 AD subjects. Regions were defined on MR images, and PET data were quantified by plasma reference graphical analysis (for total distribution volume) and target cerebellum ratio (SUV ratios of 60- to 90-min frames). SUV ratio images were also analyzed voxelwise. Five older controls each underwent 2 scans with 18F-RO-948 for evaluation of test–retest variability. Four AD subjects underwent a repeated 18F-RO-948 scan 6–22 mo after the first scan. Six additional healthy controls (3 men and 3 women; age range, 41–67 y) each underwent 1 whole-body dosimetry scan with 18F-RO-948. Results: In younger controls, SUVpeak was observed in the temporal lobe with values of approximately 3.0 for 11C-RO-963, 1.5 for 11C-RO-643, and 3.5 for 18F-RO-948. Over all brain regions and subjects, the trend was for 18F-RO-948 to have the highest SUVpeak, followed by 11C-RO-963 and then 11C-RO-643. Regional analysis of SUV ratio and total distribution volume for 11C-RO-643 and 18F-RO-948 clearly discriminated the AD group from the healthy control groups. Compartmental modeling confirmed that 11C-RO-643 had lower brain entry than either 11C-RO-963 or 18F-RO-948 and that 18F-RO-948 showed better contrast between (predicted) areas of high versus low tau accumulation. Thus, our subsequent analysis focused on 18F-RO-948. Both voxelwise and region-based analysis of 18F-RO-948 binding in healthy controls versus AD subjects revealed multiple areas where AD subjects significantly differed from healthy controls. Of 22 high-binding regions, 13 showed a significant group difference (after ANOVA, F(1,21) = 45, P < 10−5). Voxelwise analysis also revealed a set of symmetric clusters where AD subjects had higher binding than healthy controls (threshold of P < 0.001, cluster size > 50). Conclusion: 18F-RO-948 demonstrates characteristics superior to 11C-RO-643 and 11C-RO-963 for characterization of tau pathology in AD. Regional binding data and kinetic properties of 18F-RO-948 compare favorably with other existing tau PET tracers.