Диссертация (1144366), страница 13
Текст из файла (страница 13)
Синичкин Ю.П., Утц С.Р. In vivo отражательная и флуоресцентная спектроскопия кожи человека – Саратов: Изд-во Сарат. ун-та, 2001. - 92 с.2. Sinichkin Yu.P., Kollias N., Zonios G., Utz S.R., Tuchin V.V. Back reflectanceand fluorescence spectroscopy of the human skin in vivo / Handbook on Optical Biomedical Diagnostics and Imaging / Ed. V.V.
Tuchin – Bellingham,SPIE Press, 2002. - P. 725-785.3. Tuchin V.V., Maksimova I.L., Zimnyakov D.A., Kon I.L., Mavlyutov A.H.,Mishin A.A. Light propagation in tissues with controlled optical properties // J.Biomed. Opt. 1997. Vol. 2(4). P. 401–417.4. Vargas O, Chan E.K., Barton J.K., Rylander H.G., Welch A.J. Use of an agentto reduce scattering in skin // Laser Surg.
Med. 1999. Vol. 24(2). P. 133–141.5. Tuchin V.V. Optical clearing of tissue and blood using immersion method // JPhys D. 2005. Vol. 38. P. 2497–2518.6. Агрба П.Д., Кириллин М.Ю., Абелевич А.И., Загайнова Е.В., КаменскийВ.А. Компрессия как метод повышения информативности оптической когерентной томографии биотканей // Оптика и спектроскопия. 2009. Т. 107.№ 6. С. 901–906.7.
Izquierdo-Roman A., Vogt W.C., Hyacinth L., Rylander C.G. Mechanical tissue optical clearing technique increases imaging resolution and contrastthrough ex vivo porcine skin // Lasers in Surgery and Medicine. 2011. Vol. 43.P. 814–823.8. Ermakov I.V., Gellermann W. Dermal carotenoid measurements via pressuremediated reflection spectroscopy// J. Biophotonics. 2012.
Vol. 5. №7. P. 559570.9. Yeh A.T., Choi B., Nelson J.S., Tromberg B.J. Reversible dissociation of collagen in tissues // J. Invest. Dermatol. 2003. V. 121(6). P. 1332–1335.10310.Долотов Л.Е., Синичкин Ю.П. особенности применения волоконнооптических датчиков в спектральных измерениях биологических тканей//Оптика и спектроскопия. 2013. Т. 115. №2. С. 220-226.11.Ruderman S., Gomes A.J., Stoyneva V.
, Rogers J.D., Fought A.J., JovanovicB.D., and Backman V. Analysis of pressure, angle and temporal effects on tissue optical properties from polarization-gated spectroscopic probe measurements// Biomedical Optics Express. 2010. Vol. 1. №2. P. 489-49912.Аскарьян Г.А. Увеличение прохождения лазерного и другого излучениячерез мягкие мутные физические и биологические среды // Кван. Электр.1982. Т. 9. 7. С. 1379-1383.13.Chan E.K., Sorg B., Protsenko D., O’Neil M., Motamedi M., Welch A.J. Effects of compression on soft tissue optical properties // IEEE Journal on Selected Topics in Quantum Electronics. 1996.
Vol. 2(4). P. 943–950.14.Shangguan H., Prahl S.A., Jacques S.L., Casperson L.W. Pressure effects onsoft tissues monitored by changes in tissue optical properties // Proc. SPIE.1998. Vol. 3254. P. 366–371.15.Vogt W. C., Izquierdo-Roman A., Nichols B., Lim L., Tunnell J. W., andRylander C. G. Effects of Mechanical Indentation on Diffuse ReflectanceSpectra, Light Transmission, and Intrinsic Optical Properties in Ex Vivo Porcine Skin // Lasers in Surgery and Medicine.
2012. Vol, 44. P. 303–309.16.Синичкин Ю.П., Утц С.Р., Пилипенко Е.А. Спектроскопия кожи человекаin vivo: 1. Спектры отражения // Оптика и спектроскопия. 1996. T. 80. №2.C. 260-267.17.Chen W., Liu R., Xu K. and Wang R.K. Influence of contact state on NIR diffuse reflectance spectroscopy in vivo // J. Phys. D: Appl. Phys. 2005. Vol. 38.P. 2691.18.Randeberg L.L. Diagnostic applications of diffuse reflectance spectroscopy,Doctoral Thesis, Norwegian University of Science and Technology, Trondheim, Norway, 2005.10419.Carp S.A., Kauffman T., Fang Q., Rafferty E., Moore R.,. Kopans D, Boas D..Compression-induced changes in the physiological state of the breast as observed through frequency domain photon migration measurements // J. Biomed.
Opt. 2006. Vol. 11. №6. 064016.20.Reif R., Amorosino M.S., Calabro K.W., A’Amar O., Singh S.K., and BigioI.J. Analysis of changes in reflectance measurements on biological tissues subjected to different probe pressures // J. Biomed. Opt. 2008. Vol. 13. №1.010502.21.Ti Y., Lin W.C. Effects of probe contact pressure on in vivo optical spectroscopy // Opt. Express. 2008.
Vol. 16. №6. P. 4250-4262.22.Cerussi A., Siavoshi S., Durkin A., Chen C., Tanamai W., Hsiang D., andTromberg B. J.. Effect of contact force on breast tissue optical property measurements using a broadband diffuse optical spectroscopy handheld probe //Appl. Opt. 2009. Vol. 48. P. 4270-4277.23.Delgado Atencio J.A., Orozco Guillén E.E., Vázquezy Montiel S., CunillRodríguez M., Castro Ramos J., Gutiérrez J.L., and Martínez F.. Influence ofprobe pressure on human skin diffuse reflectance spectroscopy measurements// Optical Memory & Neural Networks (Information Optics). 2009. Vol.
18.№1. P. 6-14.24.Lim L., Nichols B., Rajaram N., Tunnell J.W. Probe pressure effects on humanskin diffuse reflectance and fluorescence spectroscopy measurements // J. Biomed. Opt.. 2011. Vol. 16. №1. 011012-1-9.25.Синичкин Ю.П., Утц С.Р., Меглинский И.В., Пилипенко Е.А. Спектроскопия кожи человека in vivo: 2. Спектры флуоресценции // Опт. и спектр.1996. T. 80.
№3. C. 431.26.Nath A., Rivoire K., Chang S., D. Cox, Atkinson E.N., Follen M., and Richards-Kortum R. Effect of probe pressure on cervical fluorescence spectroscopymeasurements // J. Biomed. Opt. 2004. Vol. 9. №3. P. 523-533.27.Rivoire K., Nath A., Cox D., Atkinson E. N., Richards-Kortum R., and FollenM. The effects of repeated spectroscopic pressure measurements on fluores105cence intensity in the cervix // Am. J. Obstet. Gynecol. 2004. Vol. 191. №5. P.1606-1617.28.Cugmas B., Bürmena M., Pernuša F., Likar B. Analysis of soft tissue near infrared spectra under dynamic pressure effects // Proc.
SPIE. 2012. Vol. 8220.822007.29.Cugmas B., Bürmena M., Bregar V., Pernuša F., Likar B. Pressure-inducednear infrared spectra response as a valuable source of information for soft tissue classification // Journal of biomedical optics. 2013. Vol. 18. No. 4. P.047002..30.Cugmas B., Bürmena M., Bregar V., Pernuša F., Likar B. Impact of contactpressure–induced spectral changes on soft-tissue classification in diffuse reflectance spectroscopy: problems and solutions // Journal of biomedical optics.– 2014. – Т. 19.
– №. 3. – С. 037002..31.Sapozhnikova V. V. et al. Effect on blood glucose monitoring of skin pressureexerted by an optical coherence tomography probe // Journal of biomedical optics. 2008. Т. 13. №. 2. С. 021112.32.Kirillin M.Y., Agrba P.D., Kamensky V.A. In vivo study of the effect of mechanical compression on formation of OCT images of human skin // Journal ofBiophotonics. 2010. Vol. 3(12). P. 752–758 .33.Rylander C.G., Milner T.E., Baranov S.A., Nelson J S.
Mechanical tissue optical clearing devices: enhancement of light penetration in ex vivo porcine skinand adipose tissue // Lasers Surg. Med. 2008. Vol. 40. №10. P. 688-694.34.Drew C., Milner T. E., Rylander C. G. Mechanical tissue optical clearing devices: evaluation of enhanced light penetration in skin using optical coherencetomography //Journal of biomedical optics. 2009.
Т. 14. No. 6. С. 064019.35.Yu B., Shah A., Nagarajan V.K., Ferris D.G. Diffuse reflectance spectroscopyof epithelial tissue with a smart fiber-optic probe // Biomedical Optics Express.2014. Vol. 5. No. 3. P. 675-689.10636.Bydlon T. M. et al. Chromophore based analyses of steady‐state diffuse reflectance spectroscopy: current status and perspectives for clinical adoption//Journal of biophotonics. 2015. Vol. 8. No.
1-2. P. 9-24.37.Delalleau A. et al. A nonlinear elastic behavior to identify the mechanical parameters of human skin in vivo //Skin research and Technology. 2008. Vol. 14.No. 2. P. 152-164.38.Ding H. et al. Determination of refractive indices of porcine skin tissues andintralipid at eight wavelengths between 325 and 1557 nm //JOSA A. 2005.Vol. 22. No. 6. P.
1151-1157.39. Kim C. B., Su C. B. Measurement of the refractive index of liquids at 1.3 and1.5 micron using a fibre optic Fresnel ratio meter //Measurement Science andTechnology. 2004. Vol. 15. No. 9. P. 1683.40. Anderson R. R., Parrish J. A. The optics of human skin //Journal of investigative dermatology. 1981. Vol. 77. No. 1. P. 13-19.41.
Bashkatov A.N., Genina E.A., Kochubey V.I., Tuchin V.V. Optical propertiesof human skin, subcutaneous and mucous tissues in the wavelength range from400 to 2000 nm// J. Phys. D: Appl. Phys. 2005. Vol. 38. P. 2543-2555.42.Hidenobu A., Mariko E. Non-contact skin moisture measurement based onnear-infrared spectroscopy // Appl. Spectrosc. 2004. V. 58. P. 1439-1446.43.Nachabe R., van der Hoorn J.W., van de Molengraaf R., Lamerichs R., Pikkemaat J., Sio C.F., Hendriks B.H., Sterenborg H.J. Validation of Interventional Fiber Optic Spectroscopy With MR Spectroscopy, MAS-NMR Spectroscopy, High-Performance Thin-Layer Chromatography, and Histopathology forAccurate Hepatic Fat Quantification // Investigative Radiology.
2012. Vol. 47.P. 209–216.44.Nachabe R., Hendriks B.H., Desjardins A.E., van der Voort M., van der MarkM.B., Sterenborg H.J. Estimation of lipid and water concentrations in scattering media with diffuse optical spectroscopy from 900 to 1600 nm // Journal ofBiomedical Optics. 2010. Vol. 15. 037015.10745.Oomens C.W.J., Vancampen D.H., Grootenboer H.J.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
