LABEL-FREE 3D OPTICAL MICROANGIOGRAPHY IMAGING OF FUNCTIONAL VASA NERVORUM AND PERIPHERAL MICROVASCULAR TREE IN THE HIND LIMB OF DIABETIC MICE

YALI JIA; THOMAS K. BAUMANN; RUIKANG K. WANG

doi:10.1142/s1793545810001167

[1] J. Partanen, L. Niskanen, J. Lehtinen, E. Mervaala, O. Siitonen, M. Uusitupa, “Natural history of peripheral neuropathy in patients with non-insulindependent diabetes mellitus,” N. Engl. J. Med. 333(2), 89–94 (1995).

[2] G. E. Reiber, E. J. Boyko, D. G. Smith, “Lower extremity foot ulcers and amputations in diabetes,” in Diabetes in America,M. I. Harris, C. C. Cowie, M. P. Stern, E. J. Boyko, G. E. Reiber, P. H. Bennett (eds.), pp. 409–427, National Institute of Diabetes and Digestive and Kidney Diseases, Washington, DC (1995).

[3] Z. Simmons, E. L. Feldman, “Update on diabetic neuropathy,” Curr. Opin. Neurol. 15(5), 595–603 (2002).

[4] K. F. Kusano, K. L. Allendoerfer, W. Munger, R. Pola, M. Bosch-Marce, R. Kirchmair, Y.-S. Yoon, C. Curry, M. Silver, M. Kearney, T. Asahara, D. W. Losordo, “Sonic hedgehog induces arteriogenesis in diabetic vasa nervorum and restores function in diabetic neuropathy,” Arterioscler. Thromb. Vasc. Biol. 24(11), 2102–2107 (2004).

[5] P. Schratzberger, D. H. Walter, K. Rittig, F. H. Bahlmann, R. Pola, C. Curry, M. Silver, J. G. Krainin, D. H. Weinberg, A. H. Ropper, J. M. Isner, “Reversal of experimental diabetic neuropathy by VEGF gene transfer,” J. Clin. Invest. 107(9), 1083–1092 (2001).

[6] I. Rundquist, Q. R. Smith, M. E. Michel, P. Ask, P. A. Oberg, S. I. Rapoport, “Sciatic nerve blood flow measured by laser Doppler flowmetry and [14C]iodoantipyrine,” Am. J. Physiol. Heart Circ. Physiol. 248(3), H311–317 (1985).

[7] D. W. Zochodne, P. A. Low, “Adrenergic control of nerve blood flow,” Exp. Neurol. 109(3), 300–307 (1990).

[8] G. J. Biessels, A. Kamal, G. M. Ramakers, I. J. Urban, B. M. Spruijt, D. W. Erkelens, W. H. Gispen, “Place learning and hippocampal synaptic plasticity in streptozotocin-induced diabetic rats,” Diabetes 45(9), 1259–1266 (1996).

[9] M. Ruggeri, H. Wehbe, G. Tsechpenakis, S. Jiao, M. E. Jockovich, C. Cebulla, E. Hernandez, T. G. Murray, C. A. Puliafito, “Quantitative evaluation of retinal tumor volume in mouse model of retinoblastoma by using ultra high-resolution optical coherence tomography,” J. Innovat. Opt. Health Sci. 1(1), 17–28 (2008).

[10] Z. J.Yuan,H. G. Ren, W. Waltzer, J.Kim, J.X. Liu, K. M. Jia, H. K. Xie, Y. T. Pan, “Optical coherence tomography for bladder cancer diagnosis: From animal study to clinical diagnosis,” J. Innovat. Opt. Health Sci. 1(1), 125–140 (2008).

[11] E. Borisova, E. Carstea, L. Cristescu, E. Pavlova, N. Hadjiolov, P. Troyanova, L. Avramov, “Lightinduced fluorescence spectroscopy and optical coherence tomography of basal cell carcinoma,” J. Innovat. Opt. Health Sci. 2(3), 261–268 (2009).

[12] M. Todorovic, S. L. Jiao, G. Stoica, L. H. Wang, “Preliminary study on skin cancer detection in sencar mice using Mueller optical coherence tomography,” J. Innovat. Opt. Health Sci. 2(3), 289–294 (2009).

[13] R. K.Wang, S. L. Jacques, Z. Ma, S. Hurst, S. Hanson, A. Gruber, “Three-dimensional optical angiography,” Opt. Express 15, 4083–4097 (2007).

[14] A. F. Fercher, W. Drexler, C. K. Hitzenberger, T. Lasser, “Optical coherence tomography—principles and applications,” Rep. Prog. Phys. 66, 239–303 (2003).

[15] P. H. Tomlins, R. K. Wang, “Theory, development and applications of optical coherence tomography,” J. Phys. D: Appl. Phys. 38, 2519–2535 (2005).

[16] R. K. Wang, S. Hurst, “Mapping of cerebrovascular blood perfusion in mice with skin and cranium intact by optical microangiography at 1300 nm wavelength,” Opt. Express 15(18), 11402–11412 (2007).

[17] R. K. Wang, L. An, “Doppler optical microangiography for volumetric imaging of vascular perfusion in vivo,” Opt. Express 17(11), 8926–8940 (2009).

[18] A. J. Barber, D. A. Antonetti, T. S. Kern, C. E. N. Reiter, R. S. Soans, J. K. Krady, S. W. Levison, T. W. Gardner, S. K. Bronson, “The Ins2Akita mouse as a model of early retinal complications in diabetes,” Inv. Ophthalmol. & Visual Sci. 46(6), 2210–2218 (2005).

[19] G. Lundborg, P. I. Branemark, “Microvascular structure and function of the peripheral nerves: Vital microscopic studies of the tibial nerve in the rabbit,” Adv. Microcirc. 1(2), 66–88 (1968).