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Chinese Optics Letters

Chinese Optics Letters

| PUBLISHED MONTHLY BY CHINESE LASER PRESS AND DISTRIBUTED BY OSA

  • Vol. 3, Iss. S1 — Aug. 28, 2005
  • pp: S91–S93

Possible correlation between second-order dispersion and glucose concentration investigated by low time-coherence interferometry

Juan Liu, Shangqi Wang, Morteza Bagherzadeh, Adolf Friedrich Fercher, and Shuisheng Jian  »View Author Affiliations


Chinese Optics Letters, Vol. 3, Issue S1, pp. S91-S93 (2005)


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Abstract

A possible correlation between second-order dispersion and glucose concentration is presented for the first time. The second-order dispersions of three different glucose concentrations: hypoglycemia, normal level, and hyperglycemia are analyzed over the wavelength range from 0.55 to 0.8 micron by Fourier analysis of the interferogram. The preliminary correlation between second-order dispersion and glucose concentration is investigated by linear fitting the second-order dispersion from 0.65 to 0.75 micron. This correlation is expected to determine the different glucose concentrations by measuring the second-order dispersion, which can be considered as a potentially noninvasive method to measure glucose concentration in human eye.

© 2005 Chinese Optics Letters

OCIS Codes
(120.3930) Instrumentation, measurement, and metrology : Metrological instrumentation
(170.0170) Medical optics and biotechnology : Medical optics and biotechnology
(170.1470) Medical optics and biotechnology : Blood or tissue constituent monitoring
(170.3890) Medical optics and biotechnology : Medical optics instrumentation

Citation
Juan Liu, Shangqi Wang, Morteza Bagherzadeh, Adolf Friedrich Fercher, and Shuisheng Jian, "Possible correlation between second-order dispersion and glucose concentration investigated by low time-coherence interferometry," Chin. Opt. Lett. 3, S91-S93 (2005)
http://www.opticsinfobase.org/col/abstract.cfm?URI=col-3-S1-S91


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References

  1. R. O. Esenaliev, K. V. Larin, I. V. Larina, and M. Motamedi, Opt. Lett. 26, 992 (2001).
  2. Z. Zhao, Pulsed Photoacoustic Techniques and Glucose Determination in Human Blood and Tissue (University of Oulu, Oulu, Finland, 2002) chap.2, pp.20-31.
  3. C. Yao, Z. Li, and Z. Zhang, Chin. Opt. Lett. 2, 343 (2004).
  4. W. Chen, R. Liu, H. Cui, K. Xu, and L. Lv, Chin. Opt. Lett. 2, 411 (2004).
  5. A. F. Fercher, C. K. Hitzenberger, M. Sticker, E. Moreno-Barriuso, R. Leitgeb, W. Drexler, and H. Sattmann, Opt. Commun. 185, 57 (2000).
  6. G. Van Engen, S. A. Diddams, and T. S. Clement, Appl. Opt. 37, 5679 (1998).
  7. E. R. Cochran, Proc. SPIE 1776, 151 (1992).
  8. J. Liu, M. Bagherzadeh, M. Pircher, C. K. Hitzenberger, R. Z. Zawadzki, and A. F. Fercher, Proc. SPIE 4956, 348 (2003).
  9. J. Liu and S. Jian, Acta Opt. Sin. (in Chinese) 24, 1297 (2004).
  10. M. Born and E. Wolf, Principles of Optics (7th edn.) (Cambridge University Press, Cambridge, 1999) pp.554-630.
  11. A. M. Rollins and J. A. Izatt, Opt. Lett. 24, 1484 (1999).
  12. A. Baumgartner, C. K. Hitzenberger, H. Sattmann, W. Drexler, and A. F. Fercher, J. Biomed. Opt. 3, 45 (1998).

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