Spectral micro-CT for simultaneous gold and iodine detection, and multi-material identification

P. Perion, F. Arfelli, R. Menk, L. Brombal
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引用次数: 0

Abstract

Multiple energy bin spectral micro-CT (SμCT) is an advanced imaging technique that allows multi-material decomposition according to their specific absorption patterns at a sub-100 μm scale. Typically, iodine is the preferred CT contrast agent for cardiovascular imaging, while gold nanoparticles have gained attention in recent years owing to their high absorption properties, biocompatibility and ability to target tumors. In this work, we demonstrate the potential for multi-material decomposition through SμCT imaging of a test sample at the PEPI lab of INFN Trieste. The sample, consisting of gold, iodine, calcium, and water, was imaged using a Pixirad1/PixieIII chromatic detector with multiple energy thresholds and a wide spectrum (100 kV) produced by a micro-focus X-ray tube. The results demonstrate the simultaneous detection and separation of the four materials at a spatial scale of 35 μm, suggesting the potential of this technique in improving material detectability and quantification in a range of pre-clinical applications, including cardiovascular and oncologic imaging.
用于同时检测金和碘以及识别多种材料的光谱微计算机断层扫描技术
多能量斌谱微计算机断层扫描(SμCT)是一种先进的成像技术,可根据多种材料在亚 100 微米尺度上的特定吸收模式对其进行分解。通常情况下,碘是心血管成像的首选 CT 造影剂,而金纳米粒子因其高吸收特性、生物相容性和靶向肿瘤的能力近年来备受关注。样品由金、碘、钙和水组成,使用 Pixirad1/PixieIII 色差探测器进行成像,该探测器具有多个能量阈值和微聚焦 X 射线管产生的宽光谱(100 kV)。结果表明,在 35 μm 的空间尺度上可同时检测和分离四种材料,这表明该技术在提高一系列临床前应用(包括心血管和肿瘤成像)中材料的可检测性和定量方面具有潜力。
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