Scaling up contrast-enhanced micro-CT imaging: Optimizing contrast and acquisition for large ex-vivo human samples

IF 0.8 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Daniël Docter , Melanie Timmerman , Yousif Dawood , Jaco Hagoort , Nick Lobe , Ernst van Heurn , Ramon Gorter , Karl Jacobs , Grzegorz Pyka , Greet Kerckhofs , Maurice J.B. van den Hoff , Bernadette de Bakker
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引用次数: 0

Abstract

Microfocus Computed Tomography (Micro-CT) is a novel method for non-destructive 3D imaging of samples, reaching microscale resolutions. While initially prominent in material sciences for small samples, micro-CT now gains significance in biological and medical studies. Here we present our utilization of micro-CT for imaging large ex-vivo human samples for anatomical and forensic research in three recent experiments and discuss the fundamentals of micro-CT imaging.

For pelvic anatomical research, whole human pelvises were imaged to explore nerve anatomy around the prostate using various concentrations of buffered lugol (B-lugol). Advanced acquisition protocols were essential due to X-ray attenuation properties of the sample, which required higher energy for sufficient photon transmission.

For fetal research, B-lugol stained fetuses of 20–24 gestational weeks underwent full body imaging. However, this led to challenging acquisition parameters and images of insufficient quality. Subsequent destaining yielded less dense, yet contrast-maintaining samples allowing higher quality images. Refined acquisition protocols with reduced energy improved image quality.

For forensic research, explanted hyoid-larynx complexes were imaged. Micro-CT imaging showed potential in visualizing micro-fractures. The addition of B-lugol allowed for excellent soft tissue contrast and promising possibilities for forensic evaluation.

In conclusion, micro-CT imaging accommodates a diversity of large ex-vivo human samples for anatomical and forensic purposes, though challenges arise with optimal soft tissue staining and acquisition protocols. We describe partial destaining as a new possibility to alleviate scanning issues to improve scan quality and highlight topics for future research. Micro-CT imaging is a promising new avenue for medical research and forensic evaluation.

Abstract Image

扩大对比度增强显微 CT 成像:优化大型体外人体样本的对比度和采集
微聚焦计算机断层扫描(Micro-CT)是一种对样品进行非破坏性三维成像的新方法,分辨率可达微米级。显微计算机断层扫描最初主要用于材料科学中的小型样品,现在在生物和医学研究中也越来越重要。在这里,我们介绍了最近在三项实验中利用微型计算机断层扫描对解剖学和法医学研究中的大型体外人体样本进行成像的情况,并讨论了微型计算机断层扫描成像的基本原理。在骨盆解剖学研究中,使用不同浓度的缓冲鲁戈尔(B-lugol)对整个人体骨盆进行成像,以探索前列腺周围的神经解剖结构。由于样本的 X 射线衰减特性,需要更高的能量才能实现足够的光子传输,因此必须采用先进的采集协议。在胎儿研究方面,对 20-24 孕周的 B-lugol 染色胎儿进行了全身成像。然而,这导致采集参数具有挑战性,图像质量不高。随后的去渍处理使样本密度降低,但仍能保持对比度,从而获得更高质量的图像。为进行法医研究,对取出的舌骨-喉复合体进行了成像。显微 CT 成像显示了观察微小骨折的潜力。总之,尽管最佳的软组织染色和采集方案面临挑战,但显微 CT 成像仍可用于解剖和法医目的的各种大型体外人体样本。我们介绍了部分去染色作为缓解扫描问题以提高扫描质量的一种新的可能性,并强调了未来研究的主题。显微 CT 成像是医学研究和法医评估的一个前景广阔的新途径。
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来源期刊
Forensic Imaging
Forensic Imaging RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
2.20
自引率
27.30%
发文量
39
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