[1] Huang, D., Swanson, E. A., Lin, C. P., Schuman, J. S., Stinson, W. G., Chang, W., Hee, M. R., Flotte, T., Gregory, K., Puliato, C. A. and Fujimoto, J. G., “Optical coherence tomography,” Sci. 254, 1178–1181 (1991).

[2] Esenaliev, R. O., Larin, K. V., Larina, I. V. and Motamedi, M., “Noninvasive monitoring of glucose concentration with optical coherence tomography,” Opt. Lett. 26, 992–994 (2001).

[3] Larin, K., Larina, I., Motamedi, M., Gelikonov, V., Kuranov, R. and Esenaliev, R., “Potential application of optical coherence tomography for noninvasive monitoring of glucose concentration,” in: A. V. Priezzhev and G. L. Cot (eds.), Optical Diagnostics and Sensing of Biological Fluids and Glucose and Cholesterol Monitoring, Proc. SPIE 4263, 83– 90 (2001).

[4] Kohl, M., Cope, M., Essenpreis, M. and Bocker, D., “Influence of glucose concentration on light scattering in tissue-simulating phantoms,” Opt. Lett. 19, 2170–2172 (1994).

[5] Kirillin, M., Priezzhev, A. V., Kinnunen, M., Alarousu, E., Zhao, Z., Hast, J. and Myllyl¨a, R., “aGlucose sensing in aqueous Intralipid suspension with an optical coherence tomography system: experiment and Monte Carlo simulation,” in: G. L. Cote and A. V. Priezzhev (eds.), Optical Diagnostics and Sensing IV, Proc. SPIE 5325, 164–173, (2004).

[6] Kinnunen, M.,Myllyl¨a, R., Jokela, T. and Vainio, S., “In vitro studies toward noninvasive glucose monitoring with optical coherence tomography,” Appl. Opt. 45, 2251–2260 (2006).

[7] Larin, K. V., Ashitkov, T. V., Larina, I., Petrova, I., Eledrisi, M., Motamedi, M. and Esenaliev, R. O., “Optical coherence tomography and noninvasive blood glucose monitoring: a review,” in: V. V. Tuchin (eds.), Optical Technologies in Biophysics and Medicine V, Proc. SPIE 5474, 285–290 (2004).

[8] Larin, K. V., Motamedi, M., Ashitkov, T. V. and Esenaliev, R. O., “Specificity of non-invasive blood glucose sensing using optical coherence tomography technique: a pilot study,” Phys. Med. Biol. 48, 1371– 1390 (2003).

[9] Larin, K. V., Motamedi, M., Eledrisi, M. S. and Esenaliev, R. O., “Noninvasive blood glucose monitoring with optical coherence tomography, a pilot study in human subjects,” Diabetes Care 25, 2263–2267 (2002).

[10] Schmitt, J. M., Knuttle, A. and Bonner, R. F., “Measurement of optical properties of biological tissues by low coherence interferometry,” Appl. Opt. 32, 6032–6042 (1993).

[11] Yadlowsky, M. J., Schmitt, J. M. and Bonner, R. F., “Multiple scattering in optical coherence microscopy,” Appl. Opt. 34, 5699–5707 (1995).

[12] Smithies, D. J., Lindmo, T., Chen, Z., Nelson, J. S. and Miller, T., “Signal attenuation and localisation in optical coherence tomography by Monte Carlo simulation,” Phys. Med. Biol. 43, 3025–3044 (1998).

[13] Yao, G. and Wang, L. V., “Monte Carlo simulation of an optical coherence tomography signal in homogeneous turbid media,” Phys. Med. Biol. 44, 2307– 2320 (1999).

[14] Pan, Y. T., Birngruber, R., Rosperich, J. and Engelhardt, R., “Low-coherence optical tomography in turbid tissue: theoretical analysis,” Appl. Opt. 34, 6564–6574 (1995).

[15] Wang, L. H., Jacques, S. J. and Zheng, L. Q., “MCML–Monte Carlo modeling of photon transport in multi-layered tissue,” Comput. Methods Programs Biomed. 47, 131–146 (1995).

[16] van Staveren, H. G., Moes, C. J. M., van Marle, J., Prahl, S. A. and van Gemert, M. J. C., “Light scattering in Intralipid-10% in the wavelength range of 400-1100 nm,” Appl. Opt. 30, 4507–4514 (1991).

[17] George M. H. and Marvin, R. Q., “Optical constants of water in the 200 nm to 200μm wavelength region,” Appl. Opt. 12, 555–563 (1973).

[18] Tearney, G. J., Bouma, B. E. and Fujimoto, J. G., “High-speed phase- and group-delay scanning with a grating-based phase control delay line,” Opt. Lett. 22, 1811–1813 (1997).

[19] Kholodnykh, A. I., Petrova, I. Y., Larin, K. V., Motamedi, M. and Esenaliev, R. O., “Optimization of low coherence interferometry for quantitative analysis of tissue optical properties,” in: A. V. Priezzhev and G. L. Cot (eds.), Optical Diagnostics and Sensing of Biological Fluids and Glucose and Cholesterol Monitoring II, Proc. SPIE 4624, 36–46 (2002).

[20] Zaccanti, G., Bianco, S. D. and Martelli, F., “Measurements of optical properties of high-density media,” Appl. Opt. 42, 4023–4030 (2003).

[21] Cheong, W. F., Prahl, S. A. and Welch, A. J., “A review of the optical properties of biological,” IEEE J. Quantum Electronics 26, 2166–2185 (1990).