Imaging and Sensing of pH and Chemical State With Cascade Photons of ¹¹¹In Using Ring-Type Compton Camera

IF 4.6 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

IEEE Transactions on Radiation and Plasma Medical Sciences Pub Date : 2024-08-02 DOI:10.1109/TRPMS.2024.3437354

Donghwan Kim;Mizuki Uenomachi;Kenji Shimazoe;Hiroyuki Takahashi;Kei Kamada;Hideki Tomita

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引用次数: 0

Abstract

Molecular imaging techniques, such as positron emission tomography (PET) and single-photon emission computed tomography (SPECT), provide the activity distribution of radioisotopes. 111In is a radioisotope commonly used in SPECT, which consecutively emits two cascade gamma rays: 171 keV, followed by 245 keV. The anisotropy of the emission directions of cascade gamma rays can provide more information in addition to activity distribution. It contains information regarding the chemical state of the molecule surrounding the 111In atom. A previous mechanical collimator SPECT study indicated the possibility of imaging and obtaining information on the local chemical state through anisotropy measurements. This study utilized a ring-structured Compton camera for anisotropy measurement of 111In cascade gamma rays with potential use in imaging PET and SPECT tracers. Two point sources with different pH values (1.6 and 13.9) were measured separately and simultaneously. The efficiency of events was in the order of

$\mathbf {1}\mathbf {0}^{\mathbf {- 6}}$

, which was two orders higher than the collimated detector system used in the previous study. The spatial resolution on the image at the center of the field of view was obtained as

$13.7\mathbf {\pm }0$

.16 mm, which is worse than collimated SPECT in previous studies. In the experiment, the measured anisotropy coefficients (ACs) of pH 1.6 and 13.9 were

$- 0.18\mathbf {\pm }0.05$

and

$- 0.01\mathbf {\pm }0.05$

, respectively, when measured separately. Furthermore, those of pH 1.6 and 13.9 were

$- 0.16\mathbf {\pm }0.03$

and

$0.01\mathbf {\pm }0.04$

, respectively, when measured simultaneously. The anisotropy measurements conducted at source positions derived from reconstructed images exhibited differences of more than two standard errors at different pHs. This proof of concept demonstrates the feasibility of AC measurement and discusses the limitations and the areas for improvement for further work.

查看原文本刊更多论文

环型康普顿相机中¹¹级联光子对pH和化学态的成像与传感

分子成像技术，如正电子发射断层扫描（PET）和单光子发射计算机断层扫描（SPECT），提供放射性同位素的活度分布。in是一种放射性同位素，通常用于SPECT，它连续发射两个级联伽马射线：171 keV，其次是245 keV。级联伽马射线发射方向的各向异性除了能提供活度分布以外，还能提供更多的信息。它包含有关111In原子周围分子的化学状态的信息。先前的机械准直SPECT研究表明，通过各向异性测量成像和获取局部化学状态信息的可能性。本研究利用环状结构康普顿相机测量111In级联伽马射线的各向异性，该相机可能用于PET和SPECT示踪剂成像。两个不同pH值（1.6和13.9）的点源分别同时测量。事件效率为$\mathbf {1}\mathbf {0}^{\mathbf{- 6}}$数量级，比之前研究中使用的准直探测器系统提高了两个数量级。视场中心图像的空间分辨率为$13.7\mathbf {\pm}0$ 0.16 mm，比以往研究的准直SPECT差。实验中，pH 1.6和pH 13.9分别测定的各向异性系数分别为$- 0.18\mathbf {\pm}0.05$和$- 0.01\mathbf {\pm}0.05$。同时测定pH为1.6和13.9时，pH值分别为$- 0.16\mathbf {\pm}0.03$和$0.01\mathbf {\pm}0.04$。在源位置进行的各向异性测量显示，在不同的ph值下，各向异性的差异大于两个标准误差。这一概念证明了交流测量的可行性，并讨论了进一步工作的局限性和需要改进的领域。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Transactions on Radiation and Plasma Medical Sciences RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-

CiteScore

8.00

自引率

18.20%

发文量

109