用于从组织表面有效分析疾病相关离子的多维飞行时间二次离子质谱分析

Multi-dimensional TOF-SIMS analysis for effective profiling of disease-related ions from the tissue surface.

作者信息

Park Ji-Won, Jeong Hyobin, Kang Byeongsoo, Kim Su Jin, Park Sang Yoon, Kang Sokbom, Kim Hark Kyun, Choi Joon Sig, Hwang Daehee, Lee Tae Geol

机构信息

1] Center for Nano-Bio Measurement, Korea Research Institute of Standards and Science, Daejeon, Republic of Korea [2] Department of Nano and Bio Surface Science, University of Science and Technology, Daejeon, Republic of Korea [3] Center for Systems Biology of Plant Senescence and Life History, Institute for Basic Science, Daegu, Republic of Korea.

School of interdisciplinary bioscience and bioengineering, POSTECH, Pohang, Republic of Korea.

出版信息

Sci Rep. 2015 Jun 5;5:11077. doi: 10.1038/srep11077.

DOI:10.1038/srep11077

PMID:26046669

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4457153/

Abstract

Time-of-flight secondary ion mass spectrometry (TOF-SIMS) emerges as a promising tool to identify the ions (small molecules) indicative of disease states from the surface of patient tissues. In TOF-SIMS analysis, an enhanced ionization of surface molecules is critical to increase the number of detected ions. Several methods have been developed to enhance ionization capability. However, how these methods improve identification of disease-related ions has not been systematically explored. Here, we present a multi-dimensional SIMS (MD-SIMS) that combines conventional TOF-SIMS and metal-assisted SIMS (MetA-SIMS). Using this approach, we analyzed cancer and adjacent normal tissues first by TOF-SIMS and subsequently by MetA-SIMS. In total, TOF- and MetA-SIMS detected 632 and 959 ions, respectively. Among them, 426 were commonly detected by both methods, while 206 and 533 were detected uniquely by TOF- and MetA-SIMS, respectively. Of the 426 commonly detected ions, 250 increased in their intensities by MetA-SIMS, whereas 176 decreased. The integrated analysis of the ions detected by the two methods resulted in an increased number of discriminatory ions leading to an enhanced separation between cancer and normal tissues. Therefore, the results show that MD-SIMS can be a useful approach to provide a comprehensive list of discriminatory ions indicative of disease states.

摘要

飞行时间二次离子质谱（TOF-SIMS）成为一种很有前景的工具，可用于从患者组织表面识别指示疾病状态的离子（小分子）。在TOF-SIMS分析中，增强表面分子的电离对于增加检测到的离子数量至关重要。已经开发了几种方法来增强电离能力。然而，这些方法如何改善与疾病相关离子的识别尚未得到系统探索。在此，我们提出了一种多维SIMS（MD-SIMS），它结合了传统的TOF-SIMS和金属辅助SIMS（MetA-SIMS）。使用这种方法，我们首先通过TOF-SIMS分析癌症组织和相邻正常组织，随后通过MetA-SIMS进行分析。TOF-SIMS和MetA-SIMS总共分别检测到632个和959个离子。其中，两种方法共同检测到426个，而TOF-SIMS和MetA-SIMS分别单独检测到206个和533个。在426个共同检测到的离子中，MetA-SIMS使其中250个离子的强度增加，而176个离子强度降低。对两种方法检测到的离子进行综合分析，导致鉴别离子数量增加，从而增强了癌症组织与正常组织之间的区分。因此，结果表明MD-SIMS可以成为一种有用的方法，提供一份指示疾病状态的鉴别离子综合清单。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dd74/4457153/e448599f723f/srep11077-f1.jpg

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用于从组织表面有效分析疾病相关离子的多维飞行时间二次离子质谱分析

Multi-dimensional TOF-SIMS analysis for effective profiling of disease-related ions from the tissue surface.

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