一种微纳米生物操纵装置的研究

2013 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale Pub Date : 2013-08-01 DOI:10.1109/3M-NANO.2013.6737454

Huixiang Wang, Lining Sun

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引用次数: 2

摘要

分子技术正在改变我们对细胞功能和疾病的理解。然而，如果输入的DNA、RNA或蛋白质不是来自纯细胞群或被错误的细胞污染，则精确的分子分析方法将受到限制。本文将介绍一种微纳操纵装置的设计。它是一种用于病理研究的指定细胞群或单个细胞的自动、快速、准确的分离和提取系统。采用基于压电功率超声振动的微解剖刀(振动频率为15 ~ 50 kHz，振幅为0.001 ~ 1μm)和基于真空吸附的微采集工具(可控压力为0.001 ~ 0.5 mpa)进行必要的微纳操作。通过多次实验，成功地解剖和收集了大量5μm肝包埋切片。对比测试实验表明，超声解剖工具对组织无损伤，真空吸附收集性好，微操作系统适用于生物微纳米操作，稳定性和准确性高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Research on a micro-to-nano bio-manipulation device

Molecular techniques are transforming our understanding of cellular function and disease. However, accurate molecular analysis methods will be limited if the input DNA, RNA, or protein is not derived from pure population of cells or is contaminated by the wrong cells. This paper will introduce a design of a micro-to-nano manipulation device. It was an automatic, rapid, accurate separation and extraction system designated group of cells or single cells for pathology research. Essential micro-to-nano manipulations were executed by microdissection knife based on piezo-power ultrasonic vibration (vibration frequency at 15-50 kHz and amplitude 0.001-1μm) and microcollection tool based on vacuum adsorption (controllable press at 0.001-0.5Mpa). Lots of 5μm liver embedded sections were dissected and collected successfully by many experiments. Contrast testing experiment indicates that no harm to tissue by the ultrasonic dissection tool, good availability to collection by the vacuum adsorption and the micromanipulation system is applicable to bio-micro-to-nano manipulations with high stability and accuracy.

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2013 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale

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