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可食用烘焙大麦在动物和人体对比增强光声成像中的应用。

Ingestible roasted barley for contrast-enhanced photoacoustic imaging in animal and human subjects.

机构信息

Department of Biomedical Engineering, University at Buffalo, State University of New York, Buffalo, USA.

Department of Electrical Engineering, University at Buffalo, State University of New York, Buffalo, USA.

出版信息

Biomaterials. 2018 Aug;175:72-81. doi: 10.1016/j.biomaterials.2018.05.016. Epub 2018 May 17.

DOI:10.1016/j.biomaterials.2018.05.016
PMID:29803105
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6010199/
Abstract

Photoacoustic computed tomography (PACT) is an emerging imaging modality. While many contrast agents have been developed for PACT, these typically cannot immediately be used in humans due to the lengthy regulatory process. We screened two hundred types of ingestible foodstuff samples for photoacoustic contrast with 1064 nm pulse laser excitation, and identified roasted barley as a promising candidate. Twenty brands of roasted barley were further screened to identify the one with the strongest contrast, presumably based on complex chemical modifications incurred during the roasting process. Individual roasted barley particles could be detected through 3.5 cm of chicken-breast tissue and through the whole hand of healthy human volunteers. With PACT, but not ultrasound imaging, a single grain of roasted barley was detected in a field of hundreds of non-roasted particles. Upon oral administration, roasted barley enabled imaging of the gut and peristalsis in mice. Prepared roasted barley tea could be detected through 2.5 cm chicken breast tissue. When barley tea was administered to humans, photoacoustic imaging visualized swallowing dynamics in healthy volunteers. Thus, roasted barley represents an edible foodstuff that should be considered for photoacoustic contrast imaging of swallowing and gut processes, with immediate potential for clinical translation.

摘要

光声计算机断层扫描(PACT)是一种新兴的成像方式。虽然已经开发出许多用于 PACT 的造影剂,但由于漫长的监管过程,这些造影剂通常不能立即在人体中使用。我们用 1064nm 脉冲激光激发,对 200 种可食用食物样本进行了光声对比筛选,发现烘焙大麦是一种很有前途的候选物。我们进一步对 20 个品牌的烘焙大麦进行了筛选,以确定具有最强对比度的品牌,这可能是基于烘焙过程中发生的复杂化学修饰。通过 3.5cm 厚的鸡胸组织和健康志愿者的整个手部,可以检测到单个烘焙大麦颗粒。通过 PACT 而非超声成像,可以在数百个非烘焙颗粒场中检测到单个烘焙大麦颗粒。口服烘焙大麦后,可以在小鼠体内成像肠道和蠕动。通过 2.5cm 厚的鸡胸组织可以检测到制备好的大麦茶。当大麦茶被给予人体时,光声成像可以可视化健康志愿者的吞咽动态。因此,烘焙大麦代表了一种可食用的食物,应该考虑用于吞咽和肠道过程的光声对比成像,具有立即进行临床转化的潜力。

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