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Обзоры актуальных проблем


Исследование биотканей методами светорассеяния


Саратовский государственный университет имени Н.Г. Чернышевского, ул. Астраханская 83, Саратов, 410071, Российская Федерация

Оптика биотканей — одна из интенсивно развивающихся областей знаний, представляющая интерес для физиков, работающих над созданием оптических медицинских технологий. В настоящем обзоре рассматриваются биоткани с сильным (многократным) рассеянием, такие, как кожа, ткани мозга, стенка сосуда, и слабо рассеивающие, обладающие значительным пропусканием, такие, как прозрачные ткани глаза (роговица, хрусталик). Для тканей с сильным рассеянием описание распространения света (лазерных пучков) строится на основе теории переноса излучения или численного моделирования методом Монте-Карло (МК). Для описания распространения света в слабо рассеивающих упорядоченных тканях используются модели ансамблей плотноупакованных рэлеевских рассеивателей или рассеивателей Ми. Обсуждаются методы решения обратных задач по определению оптических параметров биотканей. Анализируется распространение диффузных волн фотонной плотности в сильно рассеивающих средах с поглощением, обсуждается перспективность этих волн для оптической томографии. Рассматриваются поляризационные явления в сильно и слабо рассеивающих биотканях.

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English fulltext is available at DOI: 10.1070/PU1997v040n05ABEH000236
PACS: 42.66.−p, 87.56.−v, 87.80.+s (все)
DOI: 10.3367/UFNr.0167.199705c.0517
URL: https://ufn.ru/ru/articles/1997/5/c/
A1997XJ11200003
Цитата: Тучин В В "Исследование биотканей методами светорассеяния" УФН 167 517–539 (1997)
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English citation: Tuchin V V “Light scattering study of tissuesPhys. Usp. 40 495–515 (1997); DOI: 10.1070/PU1997v040n05ABEH000236

Список литературы (233) Статьи, ссылающиеся на эту (269) ↓ Похожие статьи (20)

  1. Aref M H, Korganbayev S et al Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 305 123363 (2024)
  2. Ushenko A, Zheng Ju et al Journal of Biophotonics 17 (3) (2024)
  3. Ushenko A, Dubolazov A et al J. Biomed. Opt. 29 (05) (2024)
  4. Yew P Y M, Chee P L et al Bioactive Materials 37 407 (2024)
  5. Mallick S P, A P et al 2024 Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR), (2024) p. 1
  6. Kim H, Kim J et al Advanced Optical Materials 12 (20) (2024)
  7. Bulygin A, Meglinski I, Kistenev Yu Photonics 10 907 (2023)
  8. Waszczuk L, Ogien J et al J. Eur. Opt. Society-Rapid Publ. 19 39 (2023)
  9. Shrestha P, Kand D et al J. Am. Chem. Soc. 145 17497 (2023)
  10. Bolic M Pervasive Cardiovascular and Respiratory Monitoring Devices (2023) p. 201
  11. Kamal A M, Sakorikar T et al IEEE Rev. Biomed. Eng. 16 687 (2023)
  12. Khan A, Venkatapathi M J. Opt. Soc. Am. A 40 932 (2023)
  13. Aref M H, El-Gohary M et al Photodiagnosis and Photodynamic Therapy 42 103507 (2023)
  14. Kumar M, Rauthan R et al Neuromethods Vol. Brain Organoid ResearchVisualization of 3D Organoids Through the Latest Advancements in Microscopy189 Chapter 3 (2023) p. 43
  15. Sdobnov A, Ushenko V A et al J. Biomed. Opt. 28 (10) (2023)
  16. Kehrer Je, Pietsch E et al 136 (1) (2023)
  17. Wang B, Li Sh et al 133 (13) (2023)
  18. Wu Y-Ch, Pagacz J et al Engineering Technologies and Clinical Translation (2022) p. 293
  19. McShane E P, Chandrasekharan H K et al Opt. Express 30 27926 (2022)
  20. Makarov P, Ustyugov V, Scheglov V 0 100 (2022)
  21. McShane E P, Chandrasekharan H K et al Biophotonics Congress: Biomedical Optics 2022 (Translational, Microscopy, OCT, OTS, BRAIN), (2022) p. TW1B.5
  22. Makarov P, Ustyugov V et al IEEE Magn. Lett. 13 1 (2022)
  23. Hou H, Du G et al J. Innov. Opt. Health Sci. 15 (03) (2022)
  24. Kamal A M, Pal U M et al Journal of Biophotonics 15 (3) (2022)
  25. Miao P, Wang Ch 2022 Photonics & Electromagnetics Research Symposium (PIERS), (2022) p. 792
  26. Wu X, Jiang Yu et al Nat. Biomed. Eng 6 754 (2022)
  27. Nguyen T-H, Nguyen T-V et al Optical Technology and Measurement for Industrial Applications Conference 2022, (2022) p. 4
  28. Normakristagaluh P, Laanstra G Ja et al IET Image Processing 16 1280 (2022)
  29. Deka G, Deka B et al Lecture Notes in Nanoscale Science and Technology Vol. Recent Advances in Plasmonic ProbesDeep Tissue High-resolution and Background-free Imaging with Plasmonic SAX Microscopy33 Chapter 16 (2022) p. 419
  30. Rehbinder Je, Vizet J et al Sci Rep 12 (1) (2022)
  31. Fouad A M H, Abbass M A et al 2022 13th International Conference on Electrical Engineering (ICEENG), (2022) p. 159
  32. Waszczuk L, Ogien J et al Biomed. Opt. Express 13 2467 (2022)
  33. Hülsbusch M, Blazek V Studies in Skin Perfusion Dynamics Biological and Medical Physics, Biomedical Engineering Chapter 10 (2021) p. 163
  34. Linares P, Bautista D, Prado S 2021 IEEE 3rd Eurasia Conference on IOT, Communication and Engineering (ECICE), (2021) p. 504
  35. Tian T, Yang Zh, Li X Journal of Anatomy 238 489 (2021)
  36. Ramírez-Cabrera M A, Arancibia-Bulnes C A, Valades-Pelayo P J Journal of Quantitative Spectroscopy and Radiative Transfer 262 107412 (2021)
  37. Bhandari Ch, Guirguis M et al Nano Today 36 101052 (2021)
  38. Singh P K, Majumdar P, Singh S P Coordination Chemistry Reviews 449 214193 (2021)
  39. Michalska M IAPGOS 11 30 (2021)
  40. Vasyuk V, Kalashnikov A et al Fifteenth International Conference on Correlation Optics, (2021) p. 91
  41. Poole J J A, Mostaço-Guidolin L B Cells 10 1760 (2021)
  42. Luidolt L R, Wimmer M, Krosl K IEEE Trans. Visual. Comput. Graphics 26 3557 (2020)
  43. jin Niu, xiping Xu et al MATEC Web Conf. 327 02001 (2020)
  44. Ferris N G, Cannon T M et al Biomed. Opt. Express 11 1947 (2020)
  45. Sviridov A P, Zhigarkov V S et al Quantum Electron. 50 81 (2020)
  46. Trifonyuk L, Sdobnov A et al Lasers Med Sci 35 877 (2020)
  47. Chatterjee S, Budidha K, Kyriacou P A Physiol. Meas. 41 084001 (2020)
  48. Ilyushin Ya Communications in Computer and Information Science Vol. SupercomputingTransient Halo in Thin Cloud Layers: Numerical Modeling1331 Chapter 34 (2020) p. 387
  49. Chen W, Goldys E M, Deng W Progress in Lipid Research 79 101052 (2020)
  50. Moradi K F, Soltani M, Souri M Journal of Controlled Release 327 316 (2020)
  51. Ryckewaert M, Héran D et al Sensors 20 4652 (2020)
  52. Kallepalli A, McCall B et al Journal of Biophotonics 13 (1) (2020)
  53. Angelsky O V, Zenkova C Yu et al Front. Phys. 8 (2020)
  54. Fajardo C, Solarte E J. Phys.: Conf. Ser. 1547 012026 (2020)
  55. Weinstain R, Slanina Tomáš et al Chem. Rev. 120 13135 (2020)
  56. Belikov A V, Semyashkina Yu V et al Opt. Spectrosc. 128 980 (2020)
  57. Ushenko A G, Vovk Yu N, Antonyuk O P VPBM 1 247 (2019)
  58. Babadi M, Mohajerani E et al J Lasers Med Sci 10 97 (2019)
  59. Kao Yu-H, Chao Paul C -P, Wey Ch-L IEEE J. Select. Topics Quantum Electron. 25 1 (2019)
  60. Blokhina A, Kleshchenok M A et al Tenth International Symposium on Precision Engineering Measurements and Instrumentation, (2019) p. 191
  61. Silva J M, Silva E, Reis R L Journal of Controlled Release 298 154 (2019)
  62. Al-Sa’d M F, Boashash B Digital Signal Processing 90 71 (2019)
  63. Zamboni C G, Farahani K, Green J J Bioanalysis Vol. Nanotheranostics for Cancer ApplicationsImage-Guided Drug Delivery5 Chapter 15 (2019) p. 345
  64. Xu J, Ma Y et al Journal of Biophotonics 12 (2) (2019)
  65. Ilyushin Ya A J. Opt. Soc. Am. A 36 540 (2019)
  66. Chatterjee S, Kyriacou P A Sensors 19 789 (2019)
  67. Carles G, Zammit P, Harvey A R Sci Rep 9 (1) (2019)
  68. Wang L, Rong M, Li K Biomed. Opt. Express 9 4031 (2018)
  69. Yusupov V I, Sviridov A P et al Saratov Fall Meeting 2017: Optical Technologies in Biophysics and Medicine XIX, (2018) p. 97
  70. Davoodi P, Lee L Y et al Advanced Drug Delivery Reviews 132 104 (2018)
  71. Ulashchik V S Vopr. kurortol. fizioter. lech. fiz. kul't. 95 4 (2018)
  72. Dubolazov O V, Ushenko V et al Advanced Topics in Optoelectronics, Microelectronics, and Nanotechnologies IX, (2018) p. 44
  73. Ceolato R, Riviere N Springer Series in Light Scattering Springer Series in Light Scattering Chapter 2 (2018) p. 55
  74. Kodela R, Vanagala P IETE Journal of Research 63 893 (2017)
  75. (Nanoscale Imaging, Sensing, and Actuation for Biomedical Applications XIV) Vol. Nanoscale Imaging, Sensing, and Actuation for Biomedical Applications XIV Full scattering profile of circular optical phantoms mimicking biological tissue Alexander N.CartwrightDan V.NicolauDrorFixlerIditFederMaciej S.WróbelHamootalDuadiDrorFixlerMalgorzataJędrzejewska-Szczerska10077 (2017) p. 1007718
  76. Mehrabi M, Setayeshi S et al J. Biomed. Opt 22 015004 (2017)
  77. Wendler F, Schneider K R A et al Polym. Chem. 8 2959 (2017)
  78. (Clinical and Preclinical Optical Diagnostics) Vol. Clinical and Preclinical Optical Diagnostics Investigating optical path in reflectance pulse oximetry using a multilayer Monte Carlo model J. QuincyBrownTon G.van LeeuwenS.ChatterjeeJ. P.PhillipsP. A.Kyriacou10411 (2017) p. 1041106
  79. Bezuglyi M A, Bezuglaya N V, Helich I V Appl. Opt. 56 8520 (2017)
  80. Elghazaly A, El-Konsol S et al International Journal of Thermal Sciences 120 148 (2017)
  81. Dubolazov O V, Prydiy O G et al Biosensing and Nanomedicine X, (2017) p. 32
  82. Ghatrehsamani S, Town G Appl. Opt. 56 952 (2017)
  83. Jeeva J B, Singh M Computer Methods and Programs in Biomedicine 141 11 (2017)
  84. Vanchuliak O, Pavlyukovich O V et al Biosensing and Nanomedicine X, (2017) p. 28
  85. Jain P, Sarma S E Imaging and Applied Optics 2017 (3D, AIO, COSI, IS, MATH, pcAOP), (2017) p. AM4A.3
  86. Avetisov S E, Narbut M N Vestn. oftal'mol. 133 84 (2017)
  87. Baranov P S, Chirkunova A A 2017 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering (EIConRus), (2017) p. 639
  88. Back S-W, Lee Y-G et al Opt. Express 24 19195 (2016)
  89. Kim M, An Je et al Biomed. Opt. Express 7 4220 (2016)
  90. Maheswari K U, Sathiyamoorthy S Optik 127 1281 (2016)
  91. Nguyen H-D, Hong K-Sh et al PLoS ONE 11 e0165146 (2016)
  92. Ghassemi P, Moffatt L T et al Journal of Biophotonics 9 100 (2016)
  93. Elbay Ü Ş, Tak Ö et al Photomedicine and Laser Surgery 34 171 (2016)
  94. Hung Sh-H, Tsai M-Yu et al Proceedings of the 2016 ACM/SIGDA International Symposium on Field-Programmable Gate Arrays, (2016) p. 42
  95. Li X, Northrop W F Computer Physics Communications 201 77 (2016)
  96. Khan Kh M, Kumar R et al BSI 5 313 (2016)
  97. Curatolo A, Munro P R T et al Sci Rep 6 (1) (2016)
  98. Tuchin V V J. Biomed. Opt 21 071114 (2016)
  99. Artoni P, Landi S et al Biomed. Opt. Express 7 1604 (2016)
  100. Feder I, Wróbel M et al Biomed. Opt. Express 7 4695 (2016)
  101. Lin B-Sh, Huang Ch-Ya et al 87 (1) (2016)
  102. Coelho J M P, Freitas J, Williamson C A Appl. Opt. 55 2240 (2016)
  103. Nguyen H-D, Hong K-Sh 2016 16th International Conference on Control, Automation and Systems (ICCAS), (2016) p. 1112
  104. Ortiz de Solorzano Isabel, Prieto M et al ACS Appl. Mater. Interfaces 8 21545 (2016)
  105. (Nanoscale Imaging, Sensing, and Actuation for Biomedical Applications XIII) Vol. Nanoscale Imaging, Sensing, and Actuation for Biomedical Applications XIII Experimental system for measuring the full scattering profile of cylindrical phantoms Alexander N.CartwrightDan V.NicolauDrorFixlerIditFederHamootalDuadiDrorFixler9721 (2016) p. 97210Z
  106. Joseph D, Kumar A OPJ 06 237 (2016)
  107. Kovtanyuk A E, Prokhorov I V, Chebotarev A Yu 2016 Days on Diffraction (DD), (2016) p. 237
  108. Yao G Light Scattering Technology for Food Property, Quality and Safety Assessment Contemporary Food Engineering (2016) p. 251
  109. Turchin I V Успехи физических наук 186 550 (2016)
  110. Rajkumar K, Padmaja V 2016 International Conference on Wireless Communications, Signal Processing and Networking (WiSPNET), (2016) p. 483
  111. Vaudelle F, L’Huillier Jean-Pierre Computers and Electronics in Agriculture 116 137 (2015)
  112. Guo Ya, Tan J J. Opt. Soc. Am. A 32 271 (2015)
  113. Lisenko S A, Kugeiko M M Quantum Electron. 45 358 (2015)
  114. Favre-Bulle I A, Preece D et al Sci Rep 5 (1) (2015)
  115. Lu Ch-H, Lin J-H et al Biomed. Eng. Appl. Basis Commun. 27 1550007 (2015)
  116. Zhou K, Tian J et al J. Innov. Opt. Health Sci. 08 1550038 (2015)
  117. (18th International School on Quantum Electronics: Laser Physics and Applications) Vol. 18th International School on Quantum Electronics: Laser Physics and ApplicationsInvestigation of photothermolysis therapy of human skin diseases using optical phantomsTanjaDreischuhSankaGatevaAlexandrosSerafetinidesM.Jędrzejewska-SzczerskaM. S.WróbelS.GallaA. P.PopovA. V.BykovV. V.TuchinA.Cenian9447 (2015) p. 944715
  118. Wang R K, Tuchin V V Optical Coherence Tomography Chapter 49 (2015) p. 1455
  119. Maryakhina V S, Scheglova L S, Anenkova K A J. Innov. Opt. Health Sci. 08 1541001 (2015)
  120. Jeeva J B, Singh M Computers in Biology and Medicine 60 92 (2015)
  121. (Saratov Fall Meeting 2014: Optical Technologies in Biophysics and Medicine XVI; Laser Physics and Photonics XVI; and Computational Biophysics) Vol. Saratov Fall Meeting 2014: Optical Technologies in Biophysics and Medicine XVI; Laser Physics and Photonics XVI; and Computational BiophysicsMicrostructured waveguides for serological examination of bloodElina A.GeninaVladimir L.DerbovKirill V.LarinDmitry E.PostnovValery V.TuchinAnastasiya A.ZanishevskayaA. A.ShuvalovYu. S.SkibinaV. V.Tuchin9448 (2015) p. 944807
  122. Rwei A Y, Wang W, Kohane D S Nano Today 10 451 (2015)
  123. Splinter R Lasers in Cardiovascular Interventions Chapter 16 (2015) p. 199
  124. Splinter R, Parigger Ch G Lasers in Cardiovascular Interventions Chapter 2 (2015) p. 15
  125. Lisenko S A, Kugeiko M M et al Opt. Spectrosc. 117 500 (2014)
  126. Apeksimov D V, Bukin O A et al Phys. Wave Phen. 22 159 (2014)
  127. Baudouin Q, Pierrat R et al Phys. Rev. E 90 (5) (2014)
  128. Huang Ch-Ya, Chan M-Ch et al Sensors 14 17586 (2014)
  129. Chernyakov A L, Kirsh A A Colloid J 76 207 (2014)
  130. Wangpraseurt D, Larkum A W D et al 217 489 (2014)
  131. Rogers B, Graybeal B et al Laser Phys. 23 036003 (2013)
  132. Feng X, Sun L, Zhang E Biomed. Opt. Express 4 958 (2013)
  133. Kim O, Lines C et al Modern Aspects of Electrochemistry Vol. Applications of Electrochemistry in MedicineModeling and Measuring Extravascular Hemoglobin: Aging Contusions56 Chapter 10 (2013) p. 381
  134. Rybynok V O, Kyriacou P A 2013 35th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), (2013) p. 2652
  135. Lisenko S A, Kugeiko M M J Appl Spectrosc 79 934 (2013)
  136. Ushenko Yu A, Angelskii P O et al Opt. Spectrosc. 115 601 (2013)
  137. Grachev P, Loschenov V 2 (3) (2013)
  138. Wang R K, Tuchin V V Handbook of Coherent-Domain Optical Methods Chapter 16 (2013) p. 665
  139. Sevrain D, Dubreuil M et al Opt. Express 21 25221 (2013)
  140. Handapangoda Ch, Premaratne M Computational Nanophotonics (2013) p. 365
  141. Aziz T, Firdous Sh et al Optik - International Journal for Light and Electron Optics 124 2936 (2013)
  142. Garcia R D M Journal of Quantitative Spectroscopy and Radiative Transfer 115 28 (2013)
  143. Kochiev D G, Prokhorov A M et al Handbook of Solid-State Lasers (2013) p. 572
  144. Lisenko S A, Kugeiko M M Opt. Spectrosc. 114 251 (2013)
  145. Lisenko S A, Kugeiko M M J Appl Spectrosc 80 271 (2013)
  146. Ushenko V A, Gorsky M P Opt. Spectrosc. 115 290 (2013)
  147. Skibina J, Malinin A et al Portable Biosensing of Food Toxicants and Environmental Pollutants Series in Sensors (2013) p. 1
  148. Li Ya, Xu J J, Liu H P AMR 605-607 929 (2012)
  149. Stelzle F, Adler W et al Surg Innov 19 385 (2012)
  150. Hunter B, Guo Zh International Journal of Heat and Mass Transfer 55 1544 (2012)
  151. Solov’ev A P, Perchenko M I, Zyuryukina O V Opt. Spectrosc. 112 806 (2012)
  152. Kalanithi P S A, Henderson Ja M International Review of Neurobiology Vol. Emerging Horizons in Neuromodulation - New Frontiers in Brain and Spine StimulationOptogenetic Neuromodulation107 (2012) p. 185
  153. Rehman A, Firdous S et al Laser Phys. 22 322 (2012)
  154. JIANG CHAO, HE HENG et al J. Innov. Opt. Health Sci. 05 1250004 (2012)
  155. Guarnera G C, Peers P et al Lecture Notes in Computer Science Vol. Computer Vision – ECCV 2012. Workshops and DemonstrationsEstimating Surface Normals from Spherical Stokes Reflectance Fields7584 Chapter 34 (2012) p. 340
  156. Bezuglyi M A, Yarych A V, Botvinovskii D V Opt. Spectrosc. 113 101 (2012)
  157. Malinin A V, Skibina Yu S et al Quantum Electron. 41 302 (2011)
  158. Letuta S N, Maryakhina V S et al Opt. Spectrosc. 110 67 (2011)
  159. BASHKATOV ALEXEY N, GENINA ELINA A, TUCHIN VALERY V J. Innov. Opt. Health Sci. 04 9 (2011)
  160. YOUNG P A, CLENDENON S G et al 242 148 (2011)
  161. Letuta S N, Maryakhina V S, Rakhmatullin R R Quantum Electron. 41 314 (2011)
  162. Savenkov S N, Oberemok E A et al J Appl Spectrosc 78 87 (2011)
  163. Saetchnikov V A, Tcherniavskaia E A J Appl Spectrosc 77 878 (2011)
  164. Ye Q, Wang J et al J. Biomed. Opt. 16 097001 (2011)
  165. Rogovtsov N N Light Scattering Reviews 5 Chapter 7 (2010) p. 249
  166. Janunts E, Pöschinger T et al Zeitschrift für Medizinische Physik 20 277 (2010)
  167. Lai J-Ch, Zhang Y-Y et al Appl. Opt. 49 3235 (2010)
  168. Rybynok V O, Kyriacou P A J. Phys.: Conf. Ser. 238 012061 (2010)
  169. Pandian P S, Kumaravel M, Singh M IEEE Trans. Biomed. Eng. 57 1167 (2010)
  170. Ullah H, Atif M et al Laser Phys. Lett. 7 889 (2010)
  171. Apeksimov D V, Bochkarev N N et al Russ Phys J 53 521 (2010)
  172. Bashkatov A N, Genina E A et al Opt. Spectrosc. 109 197 (2010)
  173. Malik B H, Coté G L Biomed. Opt. Express 1 1247 (2010)
  174. Schaaf D, Eurell T, Johnson T Journal of Biophotonics 3 161 (2010)
  175. Malin P Progress in Optics Vol. 55 (2010) p. 1
  176. Aksenova E V, Kuz’min V L, Romanov V P J. Exp. Theor. Phys. 108 516 (2009)
  177. Luu Ja, Redmond K et al 2009 17th IEEE Symposium on Field Programmable Custom Computing Machines, (2009) p. 157
  178. Zabenkov I V, Kochubey V I Opt. Spectrosc. 107 898 (2009)
  179. Kulikov K G Tech. Phys. 54 435 (2009)
  180. Pandian P S, Kumaravel M, Singh M Med Biol Eng Comput 47 1197 (2009)
  181. Lo W Ch Y, Redmond K et al J. Biomed. Opt. 14 014019 (2009)
  182. Gavrilova A A, Tuchin V V et al Opt. Spectrosc. 104 140 (2008)
  183. Plavskii V Yu, Barulin N V J Appl Spectrosc 75 843 (2008)
  184. Жмакин А И Uspekhi Fizicheskikh Nauk 178 243 (2008)
  185. Campbell S D, Grobe S D et al Phys. Rev. A 77 (2) (2008)
  186. Prokhorov I V, Yarovenko I P, Nazarov V G Inverse Problems 24 025019 (2008)
  187. Drakaki E, Makropoulou M, Serafetinides A A Lasers Med Sci 23 267 (2008)
  188. Wang R K, Tuchin V V Optical Coherence Tomography Biological and Medical Physics, Biomedical Engineering Chapter 28 (2008) p. 855
  189. Gerakis A, Kirillin M Yu et al 2008 8th IEEE International Conference on BioInformatics and BioEngineering, (2008) p. 1
  190. Tereshchenko S A Tech. Phys. 53 887 (2008)
  191. Janunts E, Pöschinger T et al Zeitschrift für Medizinische Physik 18 189 (2008)
  192. Jiancheng L, Li Zh, Anzhi H 2007 IEEE/ICME International Conference on Complex Medical Engineering, (2007) p. 1053
  193. Abdallah O, Bolz A IFMBE Proceedings Vol. World Congress on Medical Physics and Biomedical Engineering 2006Signal Processing by Reflectance Pulse Oximetry for Monitoring the fractional Oxygen Saturation and the Detektion of Anemia14 Chapter 277 (2007) p. 1152
  194. Danilov A A, Dolgushin S A et al Biomed Eng 41 53 (2007)
  195. Gorbunkov V I Opt. Spectrosc. 103 843 (2007)
  196. Pandian P S, Singh M, Kumaravel M 2007 International Conference on Signal Processing, Communications and Networking, (2007) p. 497
  197. Rezende S B, Ribeiro M S et al Journal of Photochemistry and Photobiology B: Biology 87 145 (2007)
  198. Appanov A Yu, Barabanenkov Yu N Pattern Recognit. Image Anal. 17 539 (2007)
  199. Gorodnichev E E, Kuzovlev A I, Rogozkin D B J. Exp. Theor. Phys. 104 319 (2007)
  200. Danilov A A, Masloboev Yu P et al Biomed Eng 40 175 (2006)
  201. Kuz’min V L, Romanov V P et al Opt. Spectrosc. 100 767 (2006)
  202. Gyunter S V, Votyakov V F et al Russ Phys J 49 448 (2006)
  203. Solov’ev A P, Perchenko M I, Zyuryukina O V Opt. Spectrosc. 100 307 (2006)
  204. Prokhorov I V, Yarovenko I P Opt. Spectrosc. 101 769 (2006)
  205. Kuz’min V L, Romanov V P, Obraztsov E P Opt. Spectrosc. 101 136 (2006)
  206. Solov’ev A P, Perchenko M I, Zyuryukina O V Opt. Spectrosc. 101 317 (2006)
  207. Campbell S D, O’Connell A K et al Phys. Rev. E 74 (6) (2006)
  208. GIRAEV K M, ASHURBEKOV N A, KOBSEV O V Int. J. Mod. Phys. B 20 25 (2006)
  209. Ramstein S, Vignal C et al Appl. Opt. 44 6197 (2005)
  210. Reuss J L IEEE Trans. Biomed. Eng. 52 153 (2005)
  211. Menon S, Su Q, Grobe R Phys. Rev. E 72 (4) (2005)
  212. Bashkatov A N Opt. Spectrosc. 99 836 (2005)
  213. Ivanov Yu V, Karimov A R et al J Russ Laser Res 26 363 (2005)
  214. Nandakumar S, Singh M Med. Biol. Eng. Comput. 43 313 (2005)
  215. Bashkatov A N Opt. Spectrosc. 98 638 (2005)
  216. Tuchin V V J. Phys. D: Appl. Phys. 38 2497 (2005)
  217. Krishnaswamy A, Baranoski G V G 16th Symposium on Computer Architecture and High Performance Computing, (2004) p. 166
  218. GIRAEV K M, ASHURBEKOV N A, MEDZHIDOV R T Int. J. Mod. Phys. B 18 899 (2004)
  219. Caria A, Bixio L et al IEEE Trans.on Nanobioscience 3 85 (2004)
  220. Gelikonov V M, Gladkova N D Radiophys Quantum Electron 47 835 (2004)
  221. Kostyuk O, Brown R A Biophysical Journal 87 648 (2004)
  222. Kostyuk O, Birch H L et al The Journal of Physiology 554 791 (2004)
  223. Wang R K, Tuchin V V Handbook of Coherent Domain Optical Methods Chapter 13 (2004) p. 536
  224. Ribeiro M S, Da Silva D D F T et al Journal of Clinical Laser Medicine & Surgery 22 59 (2004)
  225. Kuz’min V L, Romanov V P, Meglinskii I V Opt. Spectrosc. 96 106 (2004)
  226. Kumar D, Srinivasan R, Singh M Medical Engineering & Physics 26 363 (2004)
  227. Bashkatov A N, Genina É A et al Opt. Spectrosc. 97 978 (2004)
  228. Zolotarev V M Opt. Spectrosc. 97 655 (2004)
  229. Angelsky O V, Demianovsky G V et al J. Biomed. Opt. 9 679 (2004)
  230. Vol. The 26th Annual International Conference of the IEEE Engineering in Medicine and Biology SocietyPhoton tracking in a multilayer tissue modelJ.L.Reuss3 (2004) p. 643
  231. Giraev K M, Ashurbekov N A, Medzhidov R T Opt. Spectrosc. 95 819 (2003)
  232. Burkovets D N, Ushenko Yu A, Ushenko A G Opt. Spectrosc. 94 141 (2003)
  233. Giraev K M, Ashurbekov N A, Kobzev O V Tech. Phys. Lett. 29 901 (2003)
  234. Ul’yanov S S Opt. Spectrosc. 94 66 (2003)
  235. Popp A K, Valentine M T et al Appl. Opt. 42 2871 (2003)
  236. Shvartsman L D, Fine I IEEE Trans. Biomed. Eng. 50 1026 (2003)
  237. Meek K M, Leonard D W et al Eye 17 927 (2003)
  238. Kumar D, Singh M Med. Biol. Eng. Comput. 41 310 (2003)
  239. Reuss J L Proceedings of the 25th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (IEEE Cat. No.03CH37439), (2003) p. 2791
  240. Kumar D, Singh M IEEE Trans. Biomed. Eng. 50 1012 (2003)
  241. Ushenko A G, Burkovets D N, Ushenko Yu A Opt. Spectrosc. 93 449 (2002)
  242. Ribeiro M S, de Fátima Teixeira da Silva Daniela et al Journal of Clinical Laser Medicine & Surgery 20 37 (2002)
  243. Solov’ev A P, Sinichkin Yu P, Zyuryukina O V Opt. Spectrosc. 92 214 (2002)
  244. Ushenko Yu A Opt. Spectrosc. 93 321 (2002)
  245. Meglinskiĭ I V, Matcher S D Opt. Spectrosc. 91 654 (2001)
  246. Tuchin V V, Bashkatov A N et al Tech. Phys. Lett. 27 489 (2001)
  247. Ribeiro M S, Freitas A Z et al Laser-Tissue Interactions, Therapeutic Applications, and Photodynamic Therapy, (2001) p. 4433_45
  248. Ushenko A G Opt. Spectrosc. 91 773 (2001)
  249. Angel’skiĭ O V, Ushenko A G et al Opt. Spectrosc. 90 458 (2001)
  250. Genina E A, Bashkatov A N et al Diagnostic Optical Spectroscopy in Biomedicine, (2001) p. 4432_97
  251. Stam J Rendering Techniques 2001 Eurographics Chapter 4 (2001) p. 39
  252. Kuz’min V L, Romanov V P Opt. Spectrosc. 89 429 (2000)
  253. Ushenko A G Opt. Spectrosc. 89 597 (2000)
  254. Thurber S R, Burgess L W et al J. Opt. Soc. Am. A 17 2034 (2000)
  255. Maksimova I L, Zimnyakov D A, Tuchin V V Opt. Spectrosc. 89 78 (2000)
  256. Korolevich A N, Meglinsky I V Bioelectrochemistry 52 223 (2000)
  257. Prokhorov I V Diff Equat 36 943 (2000)
  258. Angel’skiĭ O V, Ushenko A G et al Opt. Spectrosc. 89 973 (2000)
  259. Thurber S R, Brodsky A M, Burgess L W Appl Spectrosc 54 1506 (2000)
  260. Angel’skiĭ O V, Ushenko A G et al Opt. Spectrosc. 89 799 (2000)
  261. Angel’skiĭ O V, Ushenko A G et al Opt. Spectrosc. 88 444 (2000)
  262. Kuzmin V L, Romanov V P et al Opt. Spectrosc. 89 945 (2000)
  263. Kuz’min V L, Romanov V P J. Exp. Theor. Phys. 89 1035 (1999)
  264. Guang-jiong Dong, Ru-shan Han et al Acta Phys. Sin. (Overseas Edn) 8 938 (1999)
  265. Tuchin V V Biomedical Optics, (1999) p. ATuA5
  266. Gorodnichev E E, Kuzovlev A I, Rogozkin D B J. Exp. Theor. Phys. 88 421 (1999)
  267. Dolin L S Radiophys Quantum Electron 41 850 (1998)
  268. Skipetrov S E, Chesnokov S S et al Jetp Lett. 67 635 (1998)
  269. Skipetrov S E, Meglinskii I V J. Exp. Theor. Phys. 86 661 (1998)
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