Optical absorption glucose measurements using 2.3-μm vertical-cavity semiconductor lasers

IEEE Photonics Technology Letters

Volumn 20, Issue 11, 2008, Pages 930-932

  Fard, Sahba Talebi ^a   Hofmann, Werner ^b   Fard, Pouria Talebi ^a   Bohm G ^c   Ortsiefer, Markus ^c   Kwok, Ezra ^a   Amann, Markus Christian ^b   Chrostowski, Lukas ^a  

^a UNIVERSITY OF BRITISH COLUMBIA   (Canada)

^b WALTER SCHOTTKY INSTITUT   (Germany)

^c VERTILAS GMBH   (Germany)

Author keywords

Absorption spectroscopy; Diabetes mellitus; Glucose monitoring; Implantable biomedical devices; Vertical cavity surface emitting lasers (VCSELs)

Indexed keywords

DIABETES MELLITUS; GLUCOSE MONITORING; IMPLANTABLE BIOMEDICAL DEVICES; VERTICAL-CAVITY SURFACE EMITTING LASER; VERTICAL-CAVITY SURFACE-EMITTING LASERS (VCSELS);

ABSORPTION; BLOOD; GLUCOSE; GLUCOSE SENSORS; LASERS; LIGHT ABSORPTION; MONITORING; SEMICONDUCTOR LASERS; SURFACE EMITTING LASERS;

ABSORPTION SPECTROSCOPY;

EID: 77649092001     PISSN: 10411135     EISSN: None     Source Type: Journal    
DOI: 10.1109/LPT.2008.922371     Document Type: Article

References (12)

1. J. R. McNichols and L. G. Cote, "Optical glucose sensing in biological fluids: An overview," J. Biomed. Opt., vol.5, no.1, pp. 5-16, Jan. 2000.
2. S. F. Malin, T. L. Ruchiti, T. B. Blank, S. U. Thennadil, and S. L. Monfre, "Noninvasive prediction of glucose by near-infrared-diffuse reflectance spectroscopy," Clin. Chem., vol.45, pp. 1651-1658, 1999.
3. K. J. Jeon, I. D. Hwang, S. Hahn, and G. Yoon, "Comparison between transmittance and reflectance measurements in glucose determination using near infrared spectroscopy," J. Biomed. Opt., vol.11, pp. 014022-1-014022-7, 2006.
4. A. K. Amerov, J. Chen, G. W. Small, and M. A. Arnold, "Scattering and absorption effects in the determination of glucose in whole blood by near-infrared spectroscopy," Anal. Chem., no.77, pp. 4587-4594, 2005.
5. Y. Yu, K. D. Crothall, L. G. Jahn, and M. A. DeStefano, "Laser diode applications in a continuous blood glucose sensor," Proc. SPIE, vol.4996, pp. 268-274, 2003.
6. M. Ortsiefer, G. Böhm, M. Grau, K. Windhorn, E. Rönneberg, J. Rosskopf, R. Shau, O. Dier, and M.-C. Amann, "Electrically pumped room temperature CW VCSELs with 2.3 μm emission wavelength," Electron. Lett., vol.42, no.11, pp. 640-641, May 2006.
7. G. Böhm, M. Grau, O. Dier, K. Windhorn, E. Rönneberg, J. Rosskopf, R. Shau, R. Meyer, M. Ortsiefer, and M.-C. Amann, "Growth of InAscontaining quantum wells for InP-based VCSELs emitting at 2.3 μm," J. Cryst. Growth, pp. 301-302, 2007.
8. V. A. Saptari and K. Youcef-Toumi, "Sensitivity analysis of near infrared glucose absorption signals: Towards noninvasive blood glucose sensing," Proc. SPIE, vol.4163, pp. 45-54, 2000.
9. J. T. Olesberg, M. A. Arnold, C. Mermelstein, J. Schmitz, and J. Wagner, "Tunable laser diode system for noninvasive blood glucose measurements," Appl. Spectrosc., vol.59, no.12, pp. 1480-1484, Dec. 2, 2005.
10. R. Liu, W. Chen, X. Gu, R. K.Wang, and K. Xu, "Chance correlation in non-invasive glucose measurement using near-infrared spectroscopy," J. Phys. D, Appl. Phys., no.38, pp. 2675-2681, 2005.
11. Y. Shen, A. Davies, E. Linfield, P. Taday, D. Arnone, and T. Elsey, "Determination of glucose concentration in whole blood using fouriertransform infrared spectroscopy," J. Biol. Phys., vol.29, pp. 129-133, 2003.
12. S. Hahn and G. Yoon, "Identification of pure component spectra by independent component analysis in glucose prediction based on midinfrared-spectroscopy," Appl. Opt., vol.45, pp. 8374-8380, 2006.