2023年第70回応用物理学会春季学術講演会

講演情報

一般セッション(口頭講演)

2 放射線 » 2.4 医用応用

[15p-D311-1~14] 2.4 医用応用

2023年3月15日(水) 13:30 〜 17:30 D311 (11号館)

山口 充孝(量研機構)、村石 浩(北里大)

15:00 〜 15:15

[15p-D311-6] Ultrahigh resolution small animal positron emission tomography for mouse brain imaging

〇(PC)HanGyu Kang1、Hideaki Tashima1、Fumihiko Nishikido1、Makoto Higuchi1、Miwako Takahashi1、Taiga Yamaya1 (1.QST)

キーワード:Positron emission tomography, Ultrahigh resolution, In vivo mouse brain imaging

In a previous study, we developed a mouse brain dedicated positron emission tomography (PET) scanner using a staggered 3-layer depth-of-interaction (DOI) detectors employing a 1 mm crystal pitch to achieve high resolution while minimizing the parallax error. However, the axial field of view (FOV) was 11 mm which limited the sensitivity substantially. In this study, we present the initial results of a second generation small animal PET scanner featuring an extended axial FOV for high sensitivity mouse brain imaging. The small animal PET scanner had a 52.5 mm inner diameter and 51.5 mm axial FOV. The LYSO crystal array had the pixel pitch of 1 mm and total thickness of 15 mm. The PET scanner consisted of 4 rings each of which had 16 DOI detectors. Each DOI detector consisted of a 3-layer staggered LYSO crystal array and 4×4 SiPM (Hamamatsu, S14161-3050HS-04, Japan) array with a pixel pitch of 3.2 mm. The SiPM anode signals were multiplexed using a resistive network and then digitized by a custom-made DAQ. The coincidence data were generated by using coincidence process software with a coincidence window of 10 ns. The peak absolute sensitivity was 2.84% with an energy window of 400-600 keV. The 0.55 mm rod structures of a resolution phantom were resolved using the OSEM algorithm. In vivo mouse brain images with 18F-FDG showed clear identification of cortex, thalamus, and hypothalamus. In conclusion, our PET scanner can serve as a useful molecular imagin tool for neuroscience research using rodent models.