[1] D. S. Gareau, G. Merlino, C. Corless, M. Kulesz- Martin, S. L. Jacques, “Noninvasive imaging of melanoma with reflectance mode confocal scanning laser microscopy in a murine model,” J. Investigat. Dermatol. 27(9), 2184–2190 (2007).
[2] R. Samatham, S. L. Jacques, P. Campagnola, “Optical properties of mutant versus wild-type mouse skin measured by reflectance-mode confocal scanning laser microscopy (rCSLM),” J. Biomed. Opt. 13, 041309 (2008).
[3] K. G. Phillips, R. Samatham, N. Choudhury, G. C. Gladish, P. Thuillier, S. L. Jacques, “In vivo measurement of epidermal thickness changes associated with tumor promotion in murine models,” J. Biomed. Opt. in press (2010).
[4] R. K.Wang, X. Xu, V. V. Tuchin, J. B. Elder, “Concurrent enhancement of imaging depth and contrast for optical coherence tomography by hyperosmotic agents,” J. Opt. Soc. Am. B 18, 948–953 (2001).
[5] S. R. Millon, K. M. Roldan-Perez, K. M. Riching, G. M. Palmer, N. Ramanujam, “Effect of optical clearing agents on the in vivo optical properties of squamous epithelial tissue,” Lasers Surg. Med. 38, 920–927 (2006).
[6] n80%DMSO is 1.4523 at 546 nm at 25 C, from R. G. LeBel, D. A. I. Goring, “Density, viscosity, refractive index, and hygroscopicity of mixtures of water and dimethyl sulfoxide,” J. Chem. Eng. Data 7(1), 100– 101 (1962).
[7] nglycerol = 1.4729 at 589.29 nm, from http://en. wikipedia.org/wiki/List of refractive indices.
[8] D. S. Gareau, In Vivo Confocal Microscopy In Turbid Media, Ph.D. Dissertation, Oregon Health and Science University, Portland, Oregon, USA (2006)
[9] S. L. Jacques, D. Levitz, R. Samatham, N. Choudhury, F. Truffer, D. S. Gareau, “Light scattering in confocal reflectance microscopy,” Chap. 7 in Biomedical Applications of Light Scattering, A.Wax, V. Backman, Eds., McGraw Hill Publishing (2010). J. Innov. Opt. Health Sci. 2010.03:183-188. Downloaded from www.worldscientific.com by