Диссертация (1174376), страница 25
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2. – P. 119129.113. Jacques S. L. The role of skin optics in diagnostic and therapeutic uses oflasers //Lasers in Dermatology. – Springer, Berlin, Heidelberg, 1991. – P.1-21.114. Jarry G. et al. Coherence and polarization of light propagating throughscattering media and biological tissues //Applied optics. – 1998. – Vol. 37. – №. 31. –С. 7357-7367.115. Jarry G. et al. Coherent transmission of polarized light through mammaliantissue //Photon Transport in Highly Scattering Tissue.
– International Society for Opticsand Photonics, 1995. – Vol. 2326. – P. 192-202.161116. Jiang J., Wang R. K. Comparing the synergistic effects of oleic acid anddimethyl sulfoxide as vehicles for optical clearing of skin tissue in vitro// Physics inmedicine and biology. – 2004. – Vol. 49, № 23.
– P. 5283-5294.117. Jiang J., Wang R. K. How different molarities of oleic acid as enhancerexert its effect on optical clearing of skin tissue in vitro //Journal of X-Ray Science andTechnology. – 2005. – Vol. 13. – №. 3. – P. 149-159.118. Johnson P. M. et al. Time-resolved pulse propagation in a stronglyscattering material //Physical Review E. – 2003. – Vol. 68. – №.
1. –P. 016604.119. Johnson M. L., Farmer E. R. Graft-versus-host reactions in dermatology//Journal of the American Academy of Dermatology. – 1998. – Vol. 58. – P. 369-392.120.Kashyap D. et al. Development of broadband multi-channel NIRS (near-infrared spectroscopy) imaging system for quantification of spatial distribution ofhemoglobin derivatives//Biomedical Optics(BiOS) 2007.– International Society forOptics and Photonics, 2007. – P.64341X-64341X-8.121.
Khakabia S. et al. Multi-level feature extraction for skin lesionsegmentation in dermoscopic images //Proc. of SPIE Vol. – 2012. – Т. 8315. – P.83150E-1.122. Khan M. H. et al. Optical Clearing of in Vivo Human Skin: Implicationsfor Light-Based Diagnostic Imaging and Therapeutics [2] //Lasers in surgery andmedicine. – 2004. – Vol. 34. – №. 2.123. Kharazmi P. et al. Automatic detection of basal cell carcinoma usingvascular-extracted features from dermoscopy images //Electrical and ComputerEngineering (CCECE), 2016 IEEE Canadian Conference on. – IEEE, 2016. – Р. 1-4.
116124. Keijzer M. et al. Light distributions in artery tissue: Monte Carlosimulations for finite‐diameter laser beams //Lasers in surgery and medicine. – 1989. –Vol. 9. – №. 2. – P. 148-154.125. Kellett, J. K., Ead R. D. Treatment of lichen planus with a short course oforal prednisolone // British Journal of Dermatology. – 1990. – Vol. 123, № 4. – P. 550551.162126. Kerr A.C., Ferguson J., Attili S.K. et al.
Ultraviolet A1 phototherapy: aBritish Photodermatology Group workshop report. Clinical and ExperimentalDermatology 2012; 37: 219—226.127. Knuttel A., Boehlau-Godau M. Spatially confined and temporally resolvedrefractive index and scattering evaluation in human skin performed with opticalcoherence tomography // Journal of Biomedical Optics. ― 2000. ― V.5. –№1.
P. 8392.128. Lademann J. et al. Application of optical non-invasive methods in skinphysiology: a comparison of laser scanning microscopy and optical coherenttomography with histological analysis// Skin Res Technol. – 2007. – Vol.13.–P. 119132.129. Lai J.-C., Zhang Y.-Y., Li Z.-H., Jiang H.-J., He A.-Z. Complex refractiveindex measurement of biological tissues by attenuated total reflection ellipsometry //Applied Optics. ― 2010. ― V.49. ―№16. ― P. 3235-3238.130.
Lee T. K. et al. Polarization Speckles and Skin Applications //Imaging inDermatology. – 2016. –P. 77-87(1-6).131. Lee T. K. et al. In-Vivo Skin Roughness Measurement by Laser Speckle//Fringe 2013. – Springer, Berlin, Heidelberg, 2014. – P. 933-936.(1-6)132. Lee T. K. et al. Tree Structure for Modeling Skin Lesion Growth //Frontiersof Medical Imaging. – 2015. – P. 191-209.133. Lehman J. S., Tollefson M. M., Gibson L. E. Lichen planus //Internationaljournal of dermatology. – 2009. – Vol. 48– №. 7. – P. 682-694.134. Lessmann H.
et al. Skin‐sensitizing and irritant properties of propyleneglycol //Contact dermatitis. – 2005. – Vol. 53. – №. 5. – P. 247-259.135. Levang A.K., Zhao K. Effect of ethanol/propylene glycol on the in vitropercutaneous absorption of aspirin, biophysicalchanges and macroscopic barrierproperties of the skin // Int. J. Pharm. 1999. V. 181. P. 255-263.136. Liew Y.
M. et al. Motion correction of in vivo three-dimensional opticalcoherence tomography of human skin using a fiducial marker //Biomedical opticsexpress. – 2012. – Vol. 3. – №. 8. – P. 1774-1786.163137. Liu H.et al. Dependence of tissue optical properties on solute-inducedchanges in refractive index and osmolarity //Journal of biomedical optics. – 1996. –Vol.
1, № 2. – P. 200-211.138. Liu G. et al. A comparison of Doppler optical coherence tomographymethods// Biomed. Opt. Express. 2012. – Vol. 3. – P. 2669-80.139. Lizana A. et al. Polarization gating based on Mueller matrices //Journal ofBiomedical Optics. – 2017. – Vol. 22. – №.
5. – P. 056004-056004.140. Louie D. C. et al. Findings toward the miniaturization of a laser specklecontrast device for skin roughness measurements //SPIE BiOS. – International Societyfor Optics and Photonics, 2017. – P. 100370J-100370J-8(1-6).141. Maier T. et al. Morphology of basal cell carcinoma in high definitionoptical coherence tomography: en‐face and slice imaging mode, and comparison withhistology //Journal of the European Academy of Dermatology and Venereology. – 2013.– Vol. 27. – №. 1-P.
97-99.142. Marschall S. et al. Optical coherence tomography-current technology andapplications in clinical and biomedical research // Anal. Bioanal Chem. – 2011. – Vol.400. – P. 2699-2720.143. Martin K. A. Direct measurement of moisture in skin by NIR spectroscopy//Journal-society of cosmetic chemists. – 1993. – Vol.
44. – P.249-261.144. MieScatteringCalculatorbyS.Prahl,2007:http://omlc.org/calc/mie_calc.html.145. Mirzaalian H., Lee T. K., Hamarneh G. Hair enhancement in dermoscopicimages using dual-channel quaternion tubularness filters and MRF-based multilabeloptimization //IEEE Transactions on Image Processing. – 2014. – Т. 23. – №. 12. –P.5486-5496.146. Mirzaalian H., Lee T. K., Hamarneh G. Spatial normalization of humanback images for dermatological studies //IEEE journal of biomedical and healthinformatics. – 2014.
– Т. 18. – №. 4. –P. 1494-1501.147. Mirzaalian H., KLee T. I. M., Hamarneh G. Streak-Detection inDermoscopic Color Images using Localized Radial Flux of Principal Intensity164Curvature//Proceedings of the Workshop on Mathematical Methods in BiomedicalImage Analysis. – 2012.– P.97–101.148. Mogensen M. et al. Morphology and epidermal thickness of normal skinimaged by optical coherence tomography //Dermatology. – 2008.
– Vol. 217. – №. 1. –P. 14-20.149. Mogensen M. et al. Optical coherence tomography for imaging of skin andskin diseases //Seminars in cutaneous medicine and surgery. – Frontline MedicalCommunications, 2009. – Vol. 28. – №. 3. – P. 196-202.150. Morita A., Werfel T., Stege H. et al. Evidence that singlet oxygen-inducedhuman T helper cell apoptosis is the basic mechanism of ultraviolet-A radiationphototherapy. J Exp Med 1997; 186(10): 1763—1768.151.
Mouret S. et al. UVA-induced cyclobutane pyrimidine dimers in DNA: adirect photochemical mechanism? // Organic & biomolecular chemistry. – 2010. – Vol.8. – № 7. – P. 1706-1711.152. Mutzhas M.F., Holzle E., Hofmann C. et al. A new apparatus with highradiation energy between 320 and 460 nm: physical description and dermatologicalapplications. J Invest Dermatol 1981; 76: 42—47.153. Ortonne, J. P., Thivole J., Sannwald C.
Oral photochemotherapy in thetreatment of lichen planus (LP) // British Journal of Dermatology. – 1978. – Vol. 99, №1. – P. 77-88.154. Pavlotsky F. et al. Ultraviolet‐B treatment for cutaneous lichen planus: ourexperience with 50 patients// Photodermatology, photoimmunology & photomedicine. –2008.
– Vol. 24, № 2. – P. 83-86.155. Pendyala G. et al. Oral lichen planus: a report and review of anautoimmune-mediated condition in gingiva // Compend Contin Educ Dent. – 2012. –Vol. 33, № 8. – P. 102-108.156. Perelman L. T. et al. Quantitative analysis of mucosal tissues in patientsusing light scattering spectroscopy //Optical Tomography and Spectroscopy of TissueIII. – International Society for Optics and Photonics, 1999.
– Т. 3597. – С. 474-480.165157. Petruzzi M. et al. Immune response in patients with oral lichen planus andHC infection // Int. J. Immunopathol Pharmacol. – 2004. – Vol. 17. – P. 93-98.158. Pitche P. et al. Treatment of generalized cutaneous lichen planus withdipropionate and betamethasone disodium phosphate: an open study of 73 cases //Annales de dermatologie et de venereologie. – 2007. – Vol.
134. – № 3. – P. 237-240.159. Polderman, M. C. Ultraviolet A1 in the treatment of generalized lichenplanus: A report of 4 cases / M. C. Polderman [et al.] // Journal of the AmericanAcademy of Dermatology. – 2004. – Т. 50, № 4. – P. 646-647.160. Polderman M.C., van Kooten C., Smit N.P. et al. Ultraviolet-A (UVA-1)radiation suppresses immunoglobulin production of activated B lymphocytes in vitro.Clin Exp Immunol 2006; 145(3): 528—534.161. Prahl S. A. Inverse adding-doubling program //Oregon Medical LaserCenter, St.
Vincent Hospital. – 2011.162. Prahl S.A. Light transport in tissue: Ph.D. dissertation. - University ofTexas at Austin, 1988. – P.221.163. Ring H. C. et al. Imaging of collagen deposition disorders using opticalcoherence tomography //Journal of the European Academy of Dermatology andVenereology. – 2015. – Vol. 29. – №. 5. – P. 890-898.164. Ripley P. M. et al. Near-infrared optical properties of ex vivo human uterusdetermined by the Monte Carlo inversion technique //Physics in medicine and biology.– 1999.
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