利用表面应用的 SERRS 纳米粒子对新鲜切除组织表面进行高速 Raman 编码分子成像。

High-speed Raman-encoded molecular imaging of freshly excised tissue surfaces with topically applied SERRS nanoparticles.

机构信息

University of Washington, Department of Mechanical Engineering, Seattle, Washington, United States.

Chengdu Medical College, Collaborative Innovation Center of Sichuan for Elderly Care and Health, Sch, China.

出版信息

J Biomed Opt. 2018 Apr;23(4):1-8. doi: 10.1117/1.JBO.23.4.046005.

DOI:10.1117/1.JBO.23.4.046005

PMID:29658229

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5899991/

Abstract

Surface-enhanced Raman scattering (SERS) nanoparticles (NPs) are increasingly being engineered for a variety of disease-detection and treatment applications. For example, we have previously developed a fiber-optic Raman-encoded molecular imaging (REMI) system for spectral imaging of biomarker-targeted SERS NPs topically applied on tissue surfaces to identify residual tumors at surgical margins. Although accurate tumor detection was achieved, the commercial SERS NPs used in our previous studies lacked the signal strength to enable high-speed imaging with high pixel counts (large fields of view and/or high spatial resolution), which limits their use for certain time-constrained clinical applications. As a solution, we explored the use of surface-enhanced resonant Raman scattering (SERRS) NPs to enhance imaging speeds. The SERRS NPs were synthesized de novo, and then conjugated to HER2 antibodies to achieve high binding affinity, as validated by flow cytometry. Under identical tissue-staining and imaging conditions, the targeted SERRS NPs enabled reliable identification of HER2-overexpressed tumor xenografts with 50-fold-enhanced imaging speed compared with our standard targeted SERS NPs. This enables our REMI system to image tissue surfaces at a rate of 150 cm2 per minute at a spatial resolution of 0.5 mm.

摘要

表面增强拉曼散射 (SERS) 纳米粒子 (NPs) 正被越来越多地设计用于各种疾病检测和治疗应用。例如，我们之前开发了一种光纤拉曼编码分子成像 (REMI) 系统，用于对组织表面应用的靶向生物标志物 SERS NPs 的光谱成像，以识别手术边缘的残留肿瘤。尽管实现了准确的肿瘤检测，但我们之前研究中使用的商业 SERS NPs 信号强度不足以实现具有高像素计数的高速成像（大视场和/或高空间分辨率），这限制了它们在某些时间受限的临床应用中的使用。作为一种解决方案，我们探索了使用表面增强共振拉曼散射 (SERRS) NPs 来提高成像速度。SERRS NPs 是从头合成的，然后与 HER2 抗体结合以实现高结合亲和力，这通过流式细胞术得到了验证。在相同的组织染色和成像条件下，与我们的标准靶向 SERS NPs 相比，靶向 SERRS NPs 使我们能够以 50 倍的增强成像速度可靠地识别过表达 HER2 的肿瘤异种移植物。这使得我们的 REMI 系统能够以 0.5 毫米的空间分辨率以每分钟 150 平方厘米的速度对组织表面进行成像。

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