방사선의학 웹진

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Abstract

OBJECTIVE: 

(18F-fluoropentyl)triphenylphosphonium salt (18F-FPTP) is a new promising myocardial PET imaging tracer. It shows high accumulation in cardiomyocytes and rapid clearance from liver. We performed compartmental analysis of 18F-FPTP PET images in rat and evaluated two linear analyses: linear least-squares (LLS) and a basis function method (BFM) for generating parametric images. The minimum dynamic scan duration for kinetic analysis was also investigated and computer simulation undertaken.

METHODS: 

18F-FPTP dynamic PET (18 min) and CT images were acquired from rats with myocardial infarction (MI) (n = 12). Regions of interest (ROIs) were on the left ventricle, normal myocardium, and MI region. Two-compartment (K 1 and k 2; 2C2P) and three-compartment (K 1-k 3; 3C3P) models with irreversible uptake were compared for goodness-of-fit. Partial volume and spillover correction terms (V a and α = 1 - V a ) were also incorporated. LLS and BFM were applied to ROI- and voxel-based kinetic parameter estimations. Results were compared with the standard ROI-based nonlinear least-squares (NLS) results of the corresponding compartment model. A simulation explored statistical properties of the estimation methods.

RESULTS: 

The 2C2P model was most suitable for describing 18F-FPTP kinetics. Average K 1, k 2, and V a values were, respectively, 6.8 (ml/min/g), 1.1 (min-1), and 0.44 in normal myocardium and 1.4 (ml/min/g), 1.1 (min-1), and 0.32, in MI tissue. Ten minutes of data was sufficient for the estimation. LLS and BFM estimations correlated well with NLS values for the ROI level (K 1: y = 1.06x + 0.13, r 2  = 0.96 and y = 1.13x + 0.08, r 2  = 0.97) and voxel level (K 1: y = 1.22x - 0.30, r 2  = 0.90 and y = 1.26x + 0.00, r 2  = 0.92). Regional distribution of kinetic parametric images (αK 1, K 1, k 2, V a) was physiologically relevant. LLS and BFM showed more robust characteristics than NLS in the simulation.

CONCLUSIONS: 

Fast kinetics and highly specific uptake of 18F-FPTP by myocardium enabled quantitative analysis with the 2C2P model using only the initial 10 min of data. LLS and BFM were feasible for estimating voxel-wise parameters. These two methods will be useful for quantitative evaluation of 18F-FPTP distribution in myocardium and in further studies with different conditions, disease models, and species.​

Author information

Kim JW1,2, Seo S1,2, Kim HS3,2, Kim DY3,2, Lee HY1,2, Kang KW1,4,2, Lee DS1,5,2, Bom HS3,2, Min JJ3,2, Lee JS6,7,8.​

1Department of Nuclear Medicine, Seoul National University College of Medicine, Daehak-ro 101, Chongnogu, Seoul, 03080, Korea.2Department of Cardiology, Chonnam National University Hwasun Hospital, 160 Ilsimri, Hwasun, 519-809, Jeonnam, Korea.3Department of Nuclear Medicine, Chonnam National University Hwasun Hospital, 160 Ilsimri, Hwasun, 519-809, Jeonnam, Korea.4Department of Biomedical Sciences, Seoul National University College of Medicine, Daehak-ro 101, Chongnogu, Seoul, 03080, Korea.5Department of Molecular Medicine and Biopharmaceutical Sciences, Graduate School of Convergence Science and Technology, Seoul National University, 1 Gwanak-ro, Gwanak-Gu, Seoul, 08826, Korea.6Department of Nuclear Medicine, Seoul National University College of Medicine, Daehak-ro 101, Chongnogu, Seoul, 03080, Korea. jaes@snu.ac.kr.7Department of Biomedical Sciences, Seoul National University College of Medicine, Daehak-ro 101, Chongnogu, Seoul, 03080, Korea. jaes@snu.ac.kr.8Department of Cardiology, Chonnam National University Hwasun Hospital, 160 Ilsimri, Hwasun, 519-809, Jeonnam, Korea. jaes@snu.ac.kr.