Radiology Department, Centre Hospitalier Universitaire, Lyon, France.
Nanoscale. 2017 Nov 30;9(46):18246-18257. doi: 10.1039/c7nr01153a.
Spectral photon counting computed tomography (SPCCT) is an emerging medical imaging technology. SPCCT scanners record the energy of incident photons, which allows specific detection of contrast agents due to measurement of their characteristic X-ray attenuation profiles. This approach is known as K-edge imaging. Nanoparticles formed from elements such as gold, bismuth or ytterbium have been reported as potential contrast agents for SPCCT imaging. Furthermore, gold nanoparticles have many applications in medicine, such as adjuvants for radiotherapy and photothermal ablation. In particular, longitudinal imaging of the biodistribution of nanoparticles would be highly attractive for their clinical translation. We therefore studied the capabilities of a novel SPCCT scanner to quantify the biodistribution of gold nanoparticles in vivo. PEGylated gold nanoparticles were used. Phantom imaging showed that concentrations measured on gold images correlated well with known concentrations (slope = 0.94, intercept = 0.18, RMSE = 0.18, R = 0.99). The SPCCT system allowed repetitive and quick acquisitions in vivo, and follow-up of changes in the AuNP biodistribution over time. Measurements performed on gold images correlated with the inductively coupled plasma-optical emission spectrometry (ICP-OES) measurements in the organs of interest (slope = 0.77, intercept = 0.47, RMSE = 0.72, R = 0.93). TEM results were in agreement with the imaging and ICP-OES in that much higher concentrations of AuNPs were observed in the liver, spleen, bone marrow and lymph nodes (mainly in macrophages). In conclusion, we found that SPCCT can be used for repetitive and non-invasive determination of the biodistribution of gold nanoparticles in vivo.
光谱光子计数计算机断层扫描(SPCCT)是一种新兴的医学成像技术。SPCCT 扫描仪记录入射光子的能量,这允许由于测量其特征 X 射线衰减曲线而对造影剂进行特定检测。这种方法称为 K 边成像。据报道,金、铋或镱等元素形成的纳米颗粒是 SPCCT 成像的潜在造影剂。此外,金纳米颗粒在医学中有许多应用,例如放射治疗和光热消融的佐剂。特别是,纳米颗粒的生物分布纵向成像对于它们的临床转化将非常有吸引力。因此,我们研究了一种新型 SPCCT 扫描仪定量测量体内金纳米颗粒生物分布的能力。使用了聚乙二醇化金纳米颗粒。体模成像表明,金图像上测量的浓度与已知浓度相关性良好(斜率=0.94,截距=0.18,RMSE=0.18,R=0.99)。SPCCT 系统允许在体内进行重复和快速采集,并随时间跟踪 AuNP 生物分布的变化。在金图像上进行的测量与感兴趣器官中的电感耦合等离子体-光学发射光谱(ICP-OES)测量相关(斜率=0.77,截距=0.47,RMSE=0.72,R=0.93)。TEM 结果与成像和 ICP-OES 一致,因为在肝脏、脾脏、骨髓和淋巴结(主要是巨噬细胞)中观察到 AuNP 的浓度高得多。总之,我们发现 SPCCT 可用于重复和非侵入性地确定体内金纳米颗粒的生物分布。