Sandra Schädel-Ebner, O. Hirsch, T. Gladytz, D. Gutkelch, K. Licha, J. Berger, D. Grosenick
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引用次数: 0
摘要
我们已经成功地用吲哚菁绿(ICG)荧光手成像仪打印了一个解剖形状的手模型,其特性与体内研究相似。通过将荧光染料Lumogen IR 765、二氧化钛粉末和黑色墨水添加到3D打印甲基丙烯酸酯光聚合物中,我们实现了具有生理相关吸收和降低散射系数的幻影,以及类似于广泛应用的造影剂ICG的荧光特性。幻影显示出良好的长期光稳定性,使它们非常适合器件性能监测和比较。相比之下,ICG打印的幻影的荧光随着时间的推移而不断降低。
Short and long-term photostability of 3D printed fluorescent phantoms for near-infrared diffuse optical imaging
We have successfully printed an anatomically shaped hand model with properties similar to in vivo investigations with a fluorescence hand imager using indocyanine green (ICG). By adding the fluorescent dye Lumogen IR 765, titanium dioxide powder and black ink to a 3D printing methacrylate photopolymer we realized phantoms with physiologically relevant absorption and reduced scattering coefficients as well as fluorescence properties similar to the widely applied contrast agent ICG. The phantoms show an excellent long-term photostability making them well suited for device performance monitoring and comparison. In contrast, fluorescence of phantoms printed with ICG continuously decreases over time.
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