Image Quality of Cardiac Silicon Photomultiplier PET/CT Using an Infant Phantom of Extremely Low Birth Weight.

IF 1 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Journal of nuclear medicine technology Pub Date : 2024-09-05 DOI:10.2967/jnmt.124.267826
Kazuki Fukuchi, Takayuki Shibutani, Yusuke Terakawa, Yoshifumi Nouno, Emi Tateishi, Masahisa Onoguchi, Fukuda Tetsuya
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Abstract

The lack of pediatrics-specific equipment for nuclear medicine imaging has resulted in insufficient diagnostic information for newborns, especially low-birth-weight infants. Although PET offers high spatial resolution and low radiation exposure, its use in newborns is limited. This study investigated the feasibility of cardiac PET imaging using the latest silicon photomultiplier (SiPM) PET technology in infants of extremely low birth weight (ELBW) using a phantom model. Methods: The study used a phantom model representing a 500-g ELBW infant with brain, cardiac, liver, and lung tissues. The cardiac tissue included a 3-mm-thick defect mimicking myocardial infarction. Organ tracer concentrations were calculated assuming 18F-FDG myocardial viability scans and 18F-flurpiridaz myocardial perfusion scans and were added to the phantom organs. Imaging was performed using an SiPM PET/CT scanner with a 5-min acquisition. The data acquired in list mode were reconstructed using 3-dimensional ordered-subsets expectation maximization with varying iterations. Image evaluation was based on the depiction of the myocardial defect compared with normal myocardial accumulation. Results: Increasing the number of iterations improved the contrast of the myocardial defect for both tracers, with 18F-flurpiridaz showing higher contrast than 18F-FDG. However, even at 50 iterations, both tracers overestimated the defect accumulation. A bull's-eye image can display the flow metabolism mismatch using images from both tracers. Conclusion: SiPM PET enabled cardiac PET imaging in a 500-g ELBW phantom with a 1-g heart. However, there were limitations in adequately depicting these defects. Considering the image quality and defect contrast,18F-flurpiridaz appears more desirable than 18F-FDG if only one of the two can be used.

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使用极低出生体重婴儿模型的心脏硅光电倍增管 PET/CT 图像质量。
由于缺乏儿科专用的核医学成像设备,导致新生儿尤其是低出生体重儿的诊断信息不足。虽然正电子发射计算机断层显像具有空间分辨率高、辐射量低的特点,但在新生儿中的应用却很有限。本研究利用一个模型,研究了使用最新的硅光电倍增管(SiPM)PET 技术对极低出生体重(ELBW)婴儿进行心脏 PET 成像的可行性。方法:研究使用了一个代表 500 克 ELBW 婴儿的模型,该模型包含大脑、心脏、肝脏和肺组织。心脏组织包括一个 3 毫米厚的模拟心肌梗塞的缺损。器官示踪剂浓度根据 18F-FDG 心肌存活扫描和 18F-flurpiridaz 心肌灌注扫描计算得出,并添加到模型器官中。成像使用 SiPM PET/CT 扫描仪进行,采集时间为 5 分钟。在列表模式下采集的数据采用三维有序子集期望最大化法进行重建,并进行不同的迭代。图像评估基于心肌缺损与正常心肌堆积的比较。结果:增加迭代次数可提高两种示踪剂的心肌缺损对比度,其中 18F-flurpiridaz 的对比度高于 18F-FDG。然而,即使迭代次数为 50 次,两种示踪剂都高估了缺损的累积。利用两种示踪剂的图像,靶心图像可以显示血流代谢不匹配的情况。结论:SiPM PET 能够在带有 1 克心脏的 500 克 ELBW 模型中进行心脏 PET 成像。然而,在充分描绘这些缺陷方面存在局限性。考虑到图像质量和缺损对比度,如果只能使用其中一种,18F-氟派瑞达似乎比 18F-FDG 更为理想。
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来源期刊
Journal of nuclear medicine technology
Journal of nuclear medicine technology RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
1.90
自引率
15.40%
发文量
57
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