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Федосов Иван Владленович

Публикации

Публикации в научных журналах

  1. Borisova E. et al. Photodynamic diagnostics of stress-induced gastrointestinal neoplasia in laboratory animals using 5-aminolevulinic acid and Al-phthalocyanine //Optical Diagnostics and Sensing XVIII: Toward Point-of-Care Diagnostics. – International Society for Optics and Photonics, 2018. – Т. 10501. – С. 105011E.
  2. Kurochkin M. A. et al. Blood flow velocity measurements in chicken embryo vascular network via PIV approach //Saratov Fall Meeting 2017: Optical Technologies in Biophysics and Medicine XIX. – International Society for Optics and Photonics, 2018. – Т. 10716. – С. 107160H.
  3. Borozdova M. A., Fedosov I. V., Tuchin V. V. Quantification of absolute blood velocity using LDA //Asia Communications and Photonics Conference. – Optical Society of America, 2014. – С. ATh3A. 204.
  4. Glushkovskaya-Semyachkina O. et al. The lymphatic mechanisms of brain cleaning: application of optical coherence tomography and fluorescence microscopy //Saratov Fall Meeting 2017: Laser Physics and Photonics XVIII; and Computational Biophysics and Analysis of Biomedical Data IV. – International Society for Optics and Photonics, 2018. – Т. 10717. – С. 107171V.
  5. Semyachkina-Glushkovskaya O. et al. Optical coherent tomography and fluorescent microscopy for the study of meningeal lymphatic systems //Saratov Fall Meeting 2017: Laser Physics and Photonics XVIII; and Computational Biophysics and Analysis of Biomedical Data IV. – International Society for Optics and Photonics, 2018. – Т. 10717. – С. 107171Y.
  6. Stiukhina E. S. et al. Highly localized laser-induced vascular responses //Saratov Fall Meeting 2017: Laser Physics and Photonics XVIII; and Computational Biophysics and Analysis of Biomedical Data IV. – International Society for Optics and Photonics, 2018. – Т. 10717. – С. 107171Z.
  7. Стюхина Е. С. и др. ЛАЗЕР-ИНДУЦИРОВАННЫЕ СОСУДОДВИГАТЕЛЬНЫЕ РЕАКЦИИ НА ХОРИОАЛЛАНТОИСНОЙ МЕМБРАНЕ //Известия Саратовского университета. Новая серия. Серия Химия. Биология. Экология. – 2018. – Т. 18. – №. 1.
  8. Semyachkina‐Glushkovskaya O. et al. Photodynamic opening of the blood‐brain barrier and pathways of brain clearing //Journal of biophotonics. – 2018. – Т. 11. – №. 8. – С. e201700287.
  9. Namykin A. A. et al. Intravital molecular tagging velocimetry of cerebral blood flow using Evans Blue //Journal of biophotonics. – 2018. – Т. 11. – №. 8. – С. e201700343.
  10. Grishin O. V., Fedosov I. V., Tuchin V. V. Stiffness of RBC optical confinement affected by optical clearing //Saratov Fall Meeting 2016: Optical Technologies in Biophysics and Medicine XVIII. – International Society for Optics and Photonics, 2017. – Т. 10336. – С. 103360U.
  11. Namykin A. A. et al. Fluorescent angiography of chicken embryo and photobleaching velocimetry //Saratov Fall Meeting 2016: Optical Technologies in Biophysics and Medicine XVIII. – International Society for Optics and Photonics, 2017. – Т. 10336. – С. 103360V.
  12. Kurochkin M. A. et al. Adaptive µPIV for visualization of capillary network blood flow microcirculation using Niblack local binarization //Saratov Fall Meeting 2016: Optical Technologies in Biophysics and Medicine XVIII. – International Society for Optics and Photonics, 2017. – Т. 10336. – С. 103360W.
  13. Voronin D. V. et al. In vitro and in vivo visualization and trapping of fluorescent magnetic microcapsules in a bloodstream //ACS applied materials & interfaces. – 2017. – Т. 9. – №. 8. – С. 6885-6893.
  14. Voronin D. V. et al. In vitro and in vivo visualization and trapping of fluorescent magnetic microcapsules in a bloodstream //ACS applied materials & interfaces. – 2017. – Т. 9. – №. 8. – С. 6885-6893.
  15. Borozdova M. A. et al. Quantitative measurement of blood flow dynamics in chorioallantoic membrane of chicken embryo using laser Doppler anemometry //Saratov Fall Meeting 2015: Third International Symposium on Optics and Biophotonics and Seventh Finnish-Russian Photonics and Laser Symposium (PALS). – International Society for Optics and Photonics, 2016. – Т. 9917. – С. 99170W.
  16. Kurochkin M. A. et al. Micro-PIV quantification of capillary blood flow redistribution caused by laser-assisted vascular occlusion //Saratov Fall Meeting 2015: Third International Symposium on Optics and Biophotonics and Seventh Finnish-Russian Photonics and Laser Symposium (PALS). – International Society for Optics and Photonics, 2016. – Т. 9917. – С. 99171T.
  17. Grishin O. V., Fedosov I. V., Tuchin V. V. Simple technique of fourier-transform holographic microscope with compensation of phase aberration //Saratov Fall Meeting 2015: Third International Symposium on Optics and Biophotonics and Seventh Finnish-Russian Photonics and Laser Symposium (PALS). – International Society for Optics and Photonics, 2016. – Т. 9917. – С. 99171W.
  18. Zinchenko E. et al. Critical changes in the brain leads to the intracranial hemorrhages in newborn rats //2016 International Conference Laser Optics (LO). – IEEE, 2016. – С. S2-19-S2-19.
  19. Klykov S. S., Fedosov I. V., Tuchin V. V. Erratum: Dynamic analysis of optical cell trapping in the ray optics regime //Компьютерная оптика. – 2016. – Т. 40. – №. 5.
  20. Semyachkina-Glushkovskaya O. et al. Hypoxia and Neonatal Haemorrhagic Stroke: Experimental Study of Mechanisms //Oxygen Transport to Tissue XXXVIII. – Springer, Cham, 2016. – С. 173-179.
  21. Semyachkina-Glushkovskaya O. et al. The stress and vascular catastrophes in newborn rats: mechanisms preceding and accompanying the brain hemorrhages //Frontiers in physiology. – 2016. – Т. 7. – С. 210.
  22. Мареев О. В., Мареев Г. О. Лазерная допплеровская флоуметрия в диагностике хронического тонзиллита //Практическая медицина. – 2012. – №. 6 (61).
  23. Бороздова М. А., Федосов И. В., Тучин В. В. Метод анализа сигнала лазерного доплеровского анемометра для измерения скорости течения крови //Квантовая электроника. – 2015. – Т. 45. – №. 3. – С. 275-282.
  24. Borozdova M. A., Fedosov I. V., Tuchin V. V. Laser Doppler anemometer signal processing for blood flow velocity measurements //Quantum Electronics. – 2015. – Т. 45. – №. 3. – С. 275.
  25. Клыков С. С., Федосов И. В., Тучин В. В. Анализ динамики захвата клеток в оптической ловушке в приближении геометрической оптики //Компьютерная оптика. – 2015. – Т. 39. – №. 5.
  26. Мареев Г. О. и др. Возможности создания бесконтактного лазерного флоуметра и измерение его основных характеристик //Современные проблемы науки и образования. – 2015. – №. 6. – С. 284-284.
  27. Fedosov I. V., Tuchin V. V. Statistical particle tracking for biosensing: nanoscale velocimetry and nanothermometry //Asia Communications and Photonics Conference. – Optical Society of America, 2014. – С. AF1I. 4.
  28. Kurochkin M. A. et al. Advanced digital image processing for in vivo analysis of blood flow in capillary network //Asia Communications and Photonics Conference. – Optical Society of America, 2014. – С. ATh3A. 208.
  29. Borozdova M. A., Fedosov I. V., Tuchin V. V. Quantification of absolute blood velocity using LDA //Asia Communications and Photonics Conference. – Optical Society of America, 2014. – С. ATh3A. 204.
  30. Kurochkin M. A. et al. Advanced digital image processing for in vivo analysis of blood flow in capillary network //Asia Communications and Photonics Conference. – Optical Society of America, 2014. – С. ATh3A. 208.
  31. Fedosov I. V., Tuchin V. V. Statistical particle tracking for biosensing: nanoscale velocimetry and nanothermometry //Asia Communications and Photonics Conference. – Optical Society of America, 2014. – С. AF1I. 4.
  32. Borozdova M. A., Fedosov I. V., Tuchin V. V. Quantification of absolute blood velocity using LDA //Asia Communications and Photonics Conference. – Optical Society of America, 2014. – С. ATh3A. 204.
  33. Kurochkin M. A. et al. Advanced digital image processing for in vivo analysis of blood flow in capillary network //Asia Communications and Photonics Conference. – Optical Society of America, 2014. – С. ATh3A. 208.
  34. Borozdova M. A., Fedosov I. V., Tuchin V. V. Quantification of absolute blood velocity using LDA //Asia Communications and Photonics Conference. – Optical Society of America, 2014. – С. ATh3A. 204.
  35. Fedosov I. V., Tuchin V. V. Statistical particle tracking for biosensing: nanoscale velocimetry and nanothermometry //Asia Communications and Photonics Conference. – Optical Society of America, 2014. – С. AF1I. 4.
  36. Kurochkin M. A., Fedosov I. V., Tuchin V. V. In-vivo study of blood flow in capillaries using uPIV method //Saratov Fall Meeting 2013: Optical Technologies in Biophysics and Medicine XV; and Laser Physics and Photonics XV. – International Society for Optics and Photonics, 2014. – Т. 9031. – С. 903107.
  37. Klykov S. S., Fedosov I. V., Tuchin V. V. Cell trapping in a blood capillary phantom using laser tweezers //Saratov Fall Meeting 2014: Optical Technologies in Biophysics and Medicine XVI; Laser Physics and Photonics XVI; and Computational Biophysics. – International Society for Optics and Photonics, 2015. – Т. 9448. – С. 94480A.
  38. Grishin O. V., Fedosov I. V., Tuchin V. V. Lens-free dark-field digital holographic microscopy for 3D tracking of microparticles //Saratov Fall Meeting 2014: Optical Technologies in Biophysics and Medicine XVI; Laser Physics and Photonics XVI; and Computational Biophysics. – International Society for Optics and Photonics, 2015. – Т. 9448. – С. 944816.
  39. Kurochkin M. A. et al. Advanced digital methods for blood flow flux analysis using µPIV approach //Saratov Fall Meeting 2014: Optical Technologies in Biophysics and Medicine XVI; Laser Physics and Photonics XVI; and Computational Biophysics. – International Society for Optics and Photonics, 2015. – Т. 9448. – С. 94481A.
  40. Stiukhina E. S. et al. Tissue perfusability assessment from capillary velocimetry data via the multicompartment Windkessel model //Saratov Fall Meeting 2014: Optical Technologies in Biophysics and Medicine XVI; Laser Physics and Photonics XVI; and Computational Biophysics. – International Society for Optics and Photonics, 2015. – Т. 9448. – С. 94481K.
  41. Borozdova M. A., Fedosov I. V., Tuchin V. V. Laser Doppler anemometer: new algorithm for signal processing at high light scattering //Saratov Fall Meeting 2014: Optical Technologies in Biophysics and Medicine XVI; Laser Physics and Photonics XVI; and Computational Biophysics. – International Society for Optics and Photonics, 2015. – Т. 9448. – С. 94481N.
  42. Fedosov I. V., Tuchin V. V. Bioflow measuring: laser Doppler and speckle techniques //Handbook of Coherent-Domain Optical Methods: Biomedical Diagnostics, Environmental Monitoring, and Materials Science. – 2013. – С. 487-563.
  43. Курочкин М. А., Федосов И. В. СИСТЕМА ДЛЯ ПРИЖИЗНЕННОЙ ЦИФРОВОЙ ВИЗУАЛИЗАЦИИ И МИКРОАНЕМОМЕТРИИ КАПИЛЛЯРНОГО КРОВОТОКА //Математические методы в технике и технологиях-ММТТ. – 2013. – №. 13-1. – С. 223-225.
  44. Агафонов Д. Н. и др. Исследование параметров микроциркуляции крови в области ногтевого ложа с использованием метода лазерной спеклвизуализации //Известия Саратовского университета. Новая серия. Серия Физика. – 2011. – Т. 11. – №. 2.
  45. Fedosov I. V. et al. Optical microscopy for nanoparticles temperature and velocity field visualization //Dynamics and Fluctuations in Biomedical Photonics VII. – International Society for Optics and Photonics, 2010. – Т. 7563. – С. 75630C.
  46. Fedosov I. V. et al. Statistical tracking of nanoparticles using selective plane illumination microscope //CLEO/Europe-EQEC 2009-European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference. – IEEE, 2009. – С. 1-1.
  47. Fedosov I. V. et al. Statistical tracking of nanoparticles using selective plane illumination microscope //CLEO/Europe-EQEC 2009-European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference. – IEEE, 2009. – С. 1-1.
  48. Федосов И. В. и др. Измерение коэффициента диффузии наночастиц методом микроскопии селективного планарного освещения //Оптика и спектроскопия. – 2009. – Т. 107. – №. 6. – С. 893-900.
  49. Fedosov I. V. et al. Measurements of the diffusion coefficient of nanoparticles by selective plane illumination microscopy //Optics and Spectroscopy. – 2009. – Т. 107. – №. 6. – С. 846.
  50. Федосов И. В. Геометрическая оптика. – 2008.
  51. Генина Э. А. и др. Визуализация распределения меланина и индоцианина зеленого внутри биоткани //Квантовая электроника. – 2008. – Т. 38. – №. 3. – С. 263-268.
  52. Genina E. A. et al. Visualisation of the distributions of melanin and indocyanine green in biological tissues //Quantum Electronics. – 2008. – Т. 38. – №. 3. – С. 263.
  53. Федосов И. В. и др. Динамическая ультрамикроскопия лазерно-индуцированных течений в коллоидных растворах плазмонно-резонансных частиц //Квантовая электроника. – 2008. – Т. 38. – №. 6. – С. 530-535.
  54. Fedosov I. V. et al. Handling of nanoparticles with light pressure forces //Saratov Fall Meeting 2006: Coherent Optics of Ordered and Random Media VII. – International Society for Optics and Photonics, 2007. – Т. 6536. – С. 65360A.
  55. Мареев О. В. и др. Флоуметрические критерии хирургической тактики лечения больных различными формами хронических ринитов //Российская ринология. – 2007. – №. 2. – С. 76-77.
  56. Лепилин А. В. и др. Электромагнитное излучение на частоте молекулярного спектра поглощения и излучения оксида азота в хирургическом лечении пародонтита //Российский стоматологический журнал. – 2006. – №. 3. – С. 22-24.
  57. Fedosov I. V., Tuchin V. V. Two channel laser speckle instrument for biological microflow localization and velocity measurements //European Conference on Biomedical Optics. – Optical Society of America, 2005. – С. TuH28.
  58. Fedosov I. V., Tuchin V. V. Two channel laser speckle instrument for biological microflow localization and velocity measurements //European Conference on Biomedical Optics. – Optical Society of America, 2005. – С. TuH28.
  59. Fedosov I. V., Tuchin V. V. Laser speckle instrument for complex lymph microcirculation dynamics studies //Complex Dynamics and Fluctuations in Biomedical Photonics II. – International Society for Optics and Photonics, 2005. – Т. 5696. – С. 59-62.
  60. Mareew G. O. et al. Laser Doppler flowmetry in diagnoses of chronic tonsillitis //Saratov Fall Meeting 2004: Optical Technologies in Biophysics and Medicine VI. – International Society for Optics and Photonics, 2005. – Т. 5771. – С. 291-296.
  61. Fedosov I. V. et al. Compact laser Doppler flowmeter for application in dentistry //Saratov Fall Meeting 2004: Optical Technologies in Biophysics and Medicine VI. – International Society for Optics and Photonics, 2005. – Т. 5771. – С. 297-300.
  62. Fedosov I. V., Tuchin V. V. Laser speckle technique for monitoring of blood and lymph flow //ALT'03 International Conference on Advanced Laser Technologies: Biomedical Optics. – International Society for Optics and Photonics, 2004. – Т. 5486. – С. 148-153.
  63. Mareew G. O. et al. Design of special sensors for microcirculation investigation in pharyngeal mucosa //Saratov Fall Meeting. – 2003. – С. 291-296.
  64. Fedosov I. V., Tuchin V. V. Laser speckle technique for monitoring of blood and lymph flow //ALT'03 International Conference on Advanced Laser Technologies: Biomedical Optics. – International Society for Optics and Photonics, 2004. – Т. 5486. – С. 148-153.
  65. Федосов И. В. Разработка когерентно-оптических методов измерения скорости потоков в кровеносных и лимфатических сосудах малого диаметра. – 2002.
  66. Galanzha E. I. et al. In-vivo lymph dynamic monitoring using speckle-correlation technique and light microscopy //Optical Diagnostics and Sensing of Biological Fluids and Glucose and Cholesterol Monitoring II. – International Society for Optics and Photonics, 2002. – Т. 4624. – С. 130-133.
  67. Fedosov I. V. et al. Laser speckle flow velocity sensor for functional biomicroscopy //Saratov Fall Meeting 2001: Optical Technologies in Biophysics and Medicine III. – International Society for Optics and Photonics, 2002. – Т. 4707. – С. 206-209.
  68. Fedosov I. V. et al. Special training laboratory on optical biophysics: education-research setups for postgraduate students //Saratov Fall Meeting 2001: Optical Technologies in Biophysics and Medicine III. – International Society for Optics and Photonics, 2002. – Т. 4707. – С. 465-473.
  69. Федосов И. В. и др. Регистрация динамики лимфотока в микрососудах с использованием корреляционных свойств рассеянного когерентного излучения //Квантовая электроника. – 2002. – Т. 32. – №. 11. – С. 970-974.
  70. Федосов И. В. и др. Лазерный мониторинг скорости потока в лимфатических микрососудах с использованием пространственно-временной корреляции динамического спекл-поля //Письма в ЖТФ. – 2002. – Т. 28. – №. 16. – С. 58-64.
  71. Fedosov I. V., Tuchin V. V. The space-time correlation of the intensity of a speckle field formed as a result of scattering of focused coherent radiation by a capillary liquid flow containing scattering particles //Optics and Spectroscopy. – 2002. – Т. 93. – №. 3. – С. 434-438.
  72. Fedosov I. V. et al. Recording of lymph flow dynamics in microvessels using correlation properties of scattered coherent radiation //Quantum electronics. – 2002. – Т. 32. – №. 11. – С. 970.
  73. Fedosov I. V. et al. Laser monitoring of the flow velocity in lymphatic microvessels based on a spatiotemporal correlation of the dynamic speckle fields //Technical Physics Letters. – 2002. – Т. 28. – №. 8. – С. 690-692.
  74. Fedosov I. V., Galanzha V. A., Tuchin V. V. Blood flow assessment in capillaries of human eye conjunctiva using laser Doppler technique //Imaging of Tissue Structure and Function. – International Society for Optics and Photonics, 2001. – Т. 4427. – С. 104-108.
  75. Fedosov I. V. et al. Double-wavelength laser scanning microphotometer (DWLSM) for in-vitro hair shaft and surrounding tissue imaging //Lasers in Surgery: Advanced Characterization, Therapeutics, and Systems XI. – International Society for Optics and Photonics, 2001. – Т. 4244. – С. 152-155.
  76. Fedosov I. V., Tuchin V. V. Use of dynamic speckle field space-time correlation function estimates for the direction and velocity determination of blood flow //Hybrid and Novel Imaging and New Optical Instrumentation for Biomedical Applications. – International Society for Optics and Photonics, 2001. – Т. 4434. – С. 192-196.
  77. Djagilev B. L., Fedosov I. V. Program for laser scanning microphotometer data visualization //Saratov Fall Meeting 2000: Optical Technologies in Biophysics and Medicine II. – International Society for Optics and Photonics, 2001. – Т. 4241. – С. 237-239.
  78. Tuchin V. V. et al. Special training laboratory on optical biophysics //Seventh International Conference on Education and Training in Optics and Photonics. – International Society for Optics and Photonics, 2002. – Т. 4588. – С. 258-269.
  79. Fedosov I. V., Tuchin V. V. Speckle-correlation method of bioflow diagnostics //Saratov Fall Meeting 2000: Optical Technologies in Biophysics and Medicine II. – International Society for Optics and Photonics, 2001. – Т. 4241. – С. 384-387.
  80. Fedosov I. V. et al. Laser Doppler velocimeter for laboratory training //Seventh International Conference on Education and Training in Optics and Photonics. – International Society for Optics and Photonics, 2002. – Т. 4588. – С. 507-509.
  81. l’yanov S. S. Speckle interferometry and Doppler diagnostics of microflows of scattering liquids //Optics and Spectroscopy. – 2003. – Т. 94. – №. 1. – С. 66-70.
  82. Fedosov I. V., Ulyanov S. S. Specific features of the manifestation of the Doppler effect in diffraction of focused coherent beams in a scattering flow //Optics and Spectroscopy. – 2001. – Т. 91. – №. 2. – С. 278-282.
  83. Fedosov I. V. Slit-lamp-based laser Doppler measuring system //Saratov Fall Meeting'99: Optical Technologies in Biophysics and Medicine. – International Society for Optics and Photonics, 2000. – Т. 4001. – С. 174-177.
  84. Fedosov I. V., Galanzha V. A. Laser-based instrument for blood flow assessment in capillaries of human eye conjunctiva //Optical Techniques and Instrumentation for the Measurement of Blood Composition, Structure, and Dynamics. – International Society for Optics and Photonics, 2000. – Т. 4163. – С. 80-83.
  85. Fedosov I. V. Slit-lamp-based laser Doppler measuring system //Saratov Fall Meeting'99: Optical Technologies in Biophysics and Medicine. – International Society for Optics and Photonics, 2000. – Т. 4001. – С. 174-177.
  86. Fedosov I. V., Ulyanov S. S. Laser Doppler measurements of a model blood flow //Saratov Fall Meeting'98: Light Scattering Technologies for Mechanics, Biomedicine, and Material Science. – International Society for Optics and Photonics, 1999. – Т. 3726. – С. 292-296.

Учебные пособия

  1. О.В. Мареев, А.А. Свистунов, И.В. Федосов, В.В. Тучин, Г.О. Мареев, С.И. Луцевич, И.С. Букреев, Р.С. Прохоров, Е.С Краснова, Лазерная допплеровская флоуметрия и возможности ее применения в оториноларингологии, Издательство Саратовского медицинского университета, Саратов, 2012, 83 с.
  2. А.Л. Кальянов, В.В. Лычагов, О.А. Перепелицына, В.П. Рябухо, И.В. Федосов и др., Когерентно-оптические методы в измерительной технике и биофотонике. Под редакцией проф. В.П. Рябухо и В.В.Тучина / Учеб. пособие. - Саратов: “Сателлит”, 2009.- 128 с. ISBN 978-5-904395-06-3.

Патенты

  1. Федосов И. В., Тучин В.В., Способ измерения скорости движения рассеивающих микрообъектов: патент на изобретение, RU №2223504 - приоритет от 06.05.02.
  2. В.В. Тучин, О.В. Мареев, И.В. Федосов, Г.О. Мареев, Устройство для бесконтактного определения объемного кровотока: патент на изобретение, RU №2238671 C1 – заявка №2003113092; заявл. 05.05.2003; опубл. 27.10.2004. - Бюл. №30.
  3. В.В. Тучин, О.В. Мареев, И.В. Федосов, Г.О. Мареев, Устройство для бесконтактного определения объемного кровотока: патент на полезную модель, RU №32680 U1 - заявка №2003112846; заявл. 05.05.2003; опубл. 27.09.2003. - Бюл. №27.
  4. Курочкин М.А., Федосов И.В., Тучин В.В. Velocity measurement, Программа для ЭВМ, Регистрационный номер: № 2015619584
  5. Курочкин М.А., Федосов И.В., Тучин В.В., аСА2040, Программа для ЭВМ, Регистрационный номер: № 2015619602
  6. Федосов И.В., Тучин В.В., ПЗС УЭ01, Программа для ЭВМ, Регистрационный номер: № 2015619633
  7. М.А.Бороздова, И. В. Федосов, В.В. Тучин Способ измерения скорости течения крови патент на изобретение RU №2610559 С1; заявка № 2015136644, 28.08.2015; опубл. – 13.02.2017 Бюл. № 5 – 21 с
  8. Лепилин А.В., Финохина О.А., Креницкий А.П., Майбородин А.В., Тупикин В.Д., Тучин В.В., Федосов И.В., Способ лечения пародонтита, Решение о выдаче патента на изобретение PCT по заявке 2005106380/14(007814) от 3.05.2006 с приоритетом от 10.03.2005.

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