Research on Measurement System of Biological Tissue Parameters Based on Optical Coherence Tomography

Hai Ye; Ying Jun Gao

doi:10.4028/www.scientific.net/AMM.333-335.135

Paper Titles

Dynamic Characteristics Test of a Bearing Micro Workbench Used for Fiber Measurement
p.117

Measuring the Equivalent Series Resistance of the Low Impedance Electrolytic Capacitors in Pulsed Current State
p.122

A Study of Seam Topography Measurement System in 3D Butt Welding of Main Steel Structure
p.126

A Geo-Acoustic Model Based on Empirical Formula
p.130

Research on Measurement System of Biological Tissue Parameters Based on Optical Coherence Tomography
p.135

Design and Implementation of Measurement System for Power Dissipation Characteristic of Vibration Damper Based on Virtual Instrument
p.140

Load Measurement Method of the MW Class Wind Turbine
p.146

Attitude Angle Measurement Method Based on the Three-Dimensional Accelerometer
p.152

The Design of Simulating Different Altitudes Ionic Mobility Measuring Device
p.157

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 333-335Research on Measurement System of Biological...

Research on Measurement System of Biological Tissue Parameters Based on Optical Coherence Tomography

Abstract:

In order to measure the optical parameters of biological tissue accurately and non-invasive, the measurement system based on optical coherence tomography was analyzed and designed from two aspects of hardware and software. The refractive index was calibrated by standard refractive index solutions, experiments were preformed to obtain refractive index of tissue samples and scattering coefficient of Intralipid^TM solution with different concentrations. Results show that the experimental values of refractive index agree with the standard values roughly and scattering coefficient linear relate with concentration in Intralipid^TM solution. The measurement system designed in our experiment is accurate and reliable, simple and feasible.

You might also be interested in these eBooks

Measurement Technology and Engineering Researches in Industry

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 333-335)

Pages:

135-139

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.333-335.135

Citation:

Cite this paper

Online since:

July 2013

Authors:

Hai Ye, Ying Jun Gao

Keywords:

LabVIEW, Optical Coherence Tomography, Refractive Index, Scattering Coefficient

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Kexin Xu, Feng Gao, Huijuan Zhao, in: Biomedical Photonics，chapter 1, Science Press, (2011), In Chinese.

Google Scholar

[2] Shusen Xe, Hui Li: Journal of Optoelectronics∙Laser Vol. 5-11(2004), pp.1384-1388, In Chinese.

Google Scholar

[3] L.E. Preuss, A.E. Profio: App. Opt. Vol. 28-12 (1989), pp.2207-2209.

Google Scholar

[4] W. F. Cheong, S. A. Prahl, A. J. Welch: IEEE Journal of Quantum Electronics Vol. 26-12(1990), p.2166~2185.

Google Scholar

[5] Y. Yang T.H. Wang N.C. Biswal, et al: Journal of Biomedical Optics. Vol. 16-9 (2011): 0905041-3.

Google Scholar

[6] Peng Lee, Wanrong Gao, Xianling Zhang: Appl. Opt. Vol. 49-18(2010), pp.3538-3544.

Google Scholar

[7] D. Levitz, L. Thrane, M. Frosz, et al: Opt. Express Vol. 12-2(2007), pp.249-259.

Google Scholar

[8] A.V. Zvyagin, S.A. Alexandorv, K.K.M.B. Silva S.A. Alenxandrov, et al: Opt. Exp. Vol. 11-25 (2003) , pp.3503-3517.

Google Scholar

[9] Hai YE, Dongxiong Ling: Journal of Dongguan University of Technology. Vol. 19-5(2012), pp.26-29, In Chinese.

Google Scholar

[10] K. Takada,I. Yokohama,K. Chida and J. Noda: Appl. Opt. Vol. 26-9(1987), pp.1603-1608.

Google Scholar

[11] G.J. Tearney, M.E. Brezinskin J.F. Southern, et al: Opt. Lett. Vol. 20-21(1995), pp.2258-2261.

Google Scholar

[12] L.Q. LI, H.J. WEI,Z. Y GUO: Laser & Optoelectronics Progress. Vol. 45-5(2008), pp.53-59.

Google Scholar

[13] Cheng Hsu-chih, Liu Yi-cheng: App. Opt. Vol. 49-5(2010), pp.791-797.

Google Scholar

[14] Xinyu Wang, Chunping Zhang, Liangsun Zhang, et al: Journal of Optoelectronics∙Laser Vol. 19-9(2002), pp.976-978, In Chinese.

Google Scholar

[15] S.T. Flock B.C. Wilson M.S. Patterson:. IEEE Transactions on Biomedical Engineering. Vol. 36-12(1989), p.1169~1173.

Google Scholar