PET | Linearity estimation of PET/CT scanner in list mode acquisition

Hyun Jun Choi1, Byung Jin Kim1 , Mikiko Ito2, Hong Jae Lee1, Hyun Joo Kim1, Jae Sung Lee2, Dong Soo Lee1,2

1. Dept. of Nuclear Medicine, Seoul National University Hospital, Seoul, Korea

2. Dept. of Nuclear Medicine, Seoul National University, Seoul, Korea

Purpose: Quantification of myocardial blood flow (MBF) using dynamic PET imaging has the potential to assess coronary artery disease. Rb-82 plays a key role in the clinical assessment of myocardial perfusion using PET. However, MBF could be overestimated due to the underestimation of left ventricular input function in the beginning of the acquisition when the scanner has non-linearity between count rate and activity concentration due to the scanner dead-time. Therefore, in this study, we evaluated the count rate linearity as a function of the activity concentration in PET data acquired in list mode.

Methods:  A cylindrical phantom (diameter, 12 cm; length, 10.5 cm) filled with 296

MBq F-18 solution and 800 ml of water was used to estimate the linearity of the

Biograph 40 True Point PET/CT scanner. PET data was acquired with 10-min frame of

1 bed duration in list mode for different activity concentration levels in 7 half-lives. The images were reconstructed by OSEM and FBP algorithms. Prompt, net true, and random counts of PET data according to the activity concentration were measured. Total and background counts were measured by drawing ROI on the phantom images and

linearity was measured using background correction.

Results: The prompt count rates in list mode were linearly increased proportionally to the activity concentration. At a low activity concentration (<30 kBq/ml), the prompt net true and random count rates were increased with the activity concentration. At a high activity concentration (>30 kBq/ml), the increasing rate of the prompt net true rates was slightly decreased while the increasing rate of random counts was increased. There was no difference in the image intensity linearity between OSEM and FBP algorithms.

Conclusion: The Biograph 40 True Point PET/CT scanner showed good linearity of count rate even at a high activity concentration (~370 kBq/ml). The result indicates that the scanner is useful for the quantitative analysis of data in heart dynamic studies using Rb-82, N-13, O-15, and F-18.

Key words: linearity, count rate, activity concentration

Corresponding author: Hyun Jun Choi

Department of Nuclear Medicine, Seoul National University Hospital

28 Yongon_Dong, Chongno-Gu, Seoul, 110-744, Korea TEL: +82-2-2072-3801; mobile phone: +82-10-3993-2605 e-mail: chj1022@gmail.com