The positional capture experiments of the LCM using near field fiber probe

Chi Fu Yen; Jen Ai Lee; Chien Ming Chen

doi:10.1117/12.621916

The positional capture experiments of the LCM using near field fiber probe

Chi Fu Yen, Jen Ai Lee, Chien Ming Chen

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Laser Capture Microdissection (LCM) is a technique that permits rapid and reliable procurement of pure population of cells from tissue sections. We created the LCM system with a near field fiber probe to transmit the laser light (808 nm) to heat the thermoplastic polymer film which was placed above the tissue section. Laser spots in nano-dimension cause the film to be melted and fused with the underlying target of choice. In the study, we set the fiber probe on a two-dimensional nanometer PZT to do precisely capture. The aperture of fiber probe we used is 100 nm through which light can be focused. We used 20 nm spread gold particles to be captured in these experiments instead of tissue sections. By moving the probe in X direction to melt spots in different distances, we can know more molecular properties of the thermoplastic polymer film especially in its resolving power. When the film is removed, the chosen particles remain bound to the film, while the rest of the tissue or particles are left behind. According to the results of this study, we can know how close the melted spots can reach to, and it is also helpful to the operation of this new LCM system.

Original language	English
Title of host publication	Proceedings of SPIE - The International Society for Optical Engineering
Editors	C. Quan, F.S. Chau, A. Asundi, B.S. Wong, C.T. Lim
Pages	844-848
Number of pages	5
Volume	5852 PART II
DOIs	https://doi.org/10.1117/12.621916
Publication status	Published - 2005
Event	Third International Conference on Experimental Mechanics and Third Conference of the Asian Committee on Experimental Mechanics - Singapore, Singapore Duration: Nov 29 2004 → Dec 1 2004

Other

Other	Third International Conference on Experimental Mechanics and Third Conference of the Asian Committee on Experimental Mechanics
Country/Territory	Singapore
City	Singapore
Period	11/29/04 → 12/1/04

Keywords

Laser capture microdissection
Near filed
Probe

ASJC Scopus subject areas

Electrical and Electronic Engineering
Condensed Matter Physics

Access to Document

10.1117/12.621916

Cite this

The positional capture experiments of the LCM using near field fiber probe. / Yen, Chi Fu; Lee, Jen Ai; Chen, Chien Ming.
Proceedings of SPIE - The International Society for Optical Engineering. ed. / C. Quan; F.S. Chau; A. Asundi; B.S. Wong; C.T. Lim. Vol. 5852 PART II 2005. p. 844-848 133.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Yen, CF, Lee, JA & Chen, CM 2005, The positional capture experiments of the LCM using near field fiber probe. in C Quan, FS Chau, A Asundi, BS Wong & CT Lim (eds), Proceedings of SPIE - The International Society for Optical Engineering. vol. 5852 PART II, 133, pp. 844-848, Third International Conference on Experimental Mechanics and Third Conference of the Asian Committee on Experimental Mechanics, Singapore, Singapore, 11/29/04. https://doi.org/10.1117/12.621916

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abstract = "Laser Capture Microdissection (LCM) is a technique that permits rapid and reliable procurement of pure population of cells from tissue sections. We created the LCM system with a near field fiber probe to transmit the laser light (808 nm) to heat the thermoplastic polymer film which was placed above the tissue section. Laser spots in nano-dimension cause the film to be melted and fused with the underlying target of choice. In the study, we set the fiber probe on a two-dimensional nanometer PZT to do precisely capture. The aperture of fiber probe we used is 100 nm through which light can be focused. We used 20 nm spread gold particles to be captured in these experiments instead of tissue sections. By moving the probe in X direction to melt spots in different distances, we can know more molecular properties of the thermoplastic polymer film especially in its resolving power. When the film is removed, the chosen particles remain bound to the film, while the rest of the tissue or particles are left behind. According to the results of this study, we can know how close the melted spots can reach to, and it is also helpful to the operation of this new LCM system.",

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N2 - Laser Capture Microdissection (LCM) is a technique that permits rapid and reliable procurement of pure population of cells from tissue sections. We created the LCM system with a near field fiber probe to transmit the laser light (808 nm) to heat the thermoplastic polymer film which was placed above the tissue section. Laser spots in nano-dimension cause the film to be melted and fused with the underlying target of choice. In the study, we set the fiber probe on a two-dimensional nanometer PZT to do precisely capture. The aperture of fiber probe we used is 100 nm through which light can be focused. We used 20 nm spread gold particles to be captured in these experiments instead of tissue sections. By moving the probe in X direction to melt spots in different distances, we can know more molecular properties of the thermoplastic polymer film especially in its resolving power. When the film is removed, the chosen particles remain bound to the film, while the rest of the tissue or particles are left behind. According to the results of this study, we can know how close the melted spots can reach to, and it is also helpful to the operation of this new LCM system.

AB - Laser Capture Microdissection (LCM) is a technique that permits rapid and reliable procurement of pure population of cells from tissue sections. We created the LCM system with a near field fiber probe to transmit the laser light (808 nm) to heat the thermoplastic polymer film which was placed above the tissue section. Laser spots in nano-dimension cause the film to be melted and fused with the underlying target of choice. In the study, we set the fiber probe on a two-dimensional nanometer PZT to do precisely capture. The aperture of fiber probe we used is 100 nm through which light can be focused. We used 20 nm spread gold particles to be captured in these experiments instead of tissue sections. By moving the probe in X direction to melt spots in different distances, we can know more molecular properties of the thermoplastic polymer film especially in its resolving power. When the film is removed, the chosen particles remain bound to the film, while the rest of the tissue or particles are left behind. According to the results of this study, we can know how close the melted spots can reach to, and it is also helpful to the operation of this new LCM system.

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The positional capture experiments of the LCM using near field fiber probe

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