Структурные изменения хрящевой ткани при неразрушающем лазерном воздействии с длиной волны 1,56 мкм (1105752), страница 18
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V.1. P. 282-287.52. Heath C. The effect of physical forces on cartilage tissue engineering. // Biotechnol.Genet. Eng. Rev. 2000. V.17. P.533–551.53. Sobol E., Shekhter A., Baskov A., Baskov V., Baum O., Borchshenko I., Golubev V.,Guller A., Kolyshev I., Omeltchenko A., Sviridov A., Zakharkina O. Regeneration ofspine disc and joint cartilages under temporal and space modulated laser radiation. //Proc. of SPIE.
2009. V.7179. P. 71790B-1 - 71790B-7.54. Choi J.Y., Tanenbaum B.S., Milner T.E., Dao X.V., Nelson J.S., Sobol E.N., Wong B.J.Theramal, mechanical, optical, and morphologic changes in bovine nucleus pulposusinduced by Nd:YAG (lambda = 1.32 microm) laser irradiation. // Lasers Surg. Med.2001. V.28. №3. P.248-254.55.
Sobol E., Shekhter A., Baskov A., Zakharkina O. Laser regeneration of intervertebraldiscs. // Book of International Cartilage repair Society. 2006. P-4-39.56. Klarlund M., Ostergaard M., Jensen K.E., Madsen J.L., Skjodt H. Magnetic resonanceimaging, radiography, and scintigraphy of the finger joints: one year follow up ofpatients with early arthritis. The TIRA Group. // Ann.
Rheum. Dis. 2000. V.59. P.521–528.9557. Shyu J.J., Chan C.H., Hsiung M.W., Yang P.N., Chen H.W. Diagnosis of articularcartilage damage by polarization sensitive optical coherence tomography and theextracted optical properties. // Prog. Electromagn. Res. PIER.
2009. V.91. P.365–376.58. Murthy Sh.K. Nanoparticles in modern medicine: State of the art and future challenges.// Int. J. Nanomedicine. 2007. V.2. №2. P.129–141.59. Simon G.H., Vopelius-Feldt J., Wendland M.F. Fu Y., Piontek G., Schlegel J., Chen MH., Daldrup-Link H.E. MRI of Arthritis: Comparison of Ultrasmall SuperparamagneticIron Oxide vs. Gd-DTPA. // J. Magn.
Reson. Im. 2006. V.23. P.720–727.60. Corot C., Robert P., Idée J.-M., Port M. Recent advances in iron oxide nanocrystaltechnology for medical imaging. // Adv. Drug Deliv. Rev. 2006. V.58. P.1471–1504.61. Sun C., Lee J.S.H., Zhang M. Magnetic nanoparticles in MR imaging and drug delivery.// Adv. Drug Deliver. Rev. 2008. V.60. P.1252–1265.62. Dai F., Du M., Liu Y., Liu G., Liu Q., Zhang X.. Folic acid-conjugated glucose anddextran coated iron oxide nanoparticles as MRI contrast agents for diagnosis andtreatment response of rheumatoid arthritis. // J.
Mater. Chem. B. 2008. V.2. P.22402247.63. Луппа Х. Основы гистохимии. Изд. «Мир». Москва. 1980. 344 с.64. Миронов А.А., Комиссарчик Я.Ю., Миронов В.А.. Методы электронноймикроскопии в биологии и медицине. Изд. Наука. Санкт-Петербург. 1994. 399 с.65. Миронов А.А. Электронная микроскопия клеток и тканей: замораживание скалывание – травление. Изд. Наука. Ленингр. отд-ние. 1990. 140 с.66.
Яминский И.В. Сканирующая зондовая микроскопия биополимеров. М.: Научныймир. 1997. 87 с.67. Миронов В.Л. Основы сканирующей зондовой микроскопии. Н.Новгород.: ИФМРАН. 2004. С. 62 – 87.68. ГаллямовМ.О.,ЯминскийИ.В.Сканирующаязондоваямикроскопиянуклеиновых кислот. Изд. Центр Перспективных Технологий. 1998. С.3.69.
Lin H., Grodzinsky A.J., Ortiz C. Nanomechanics of the Cartilage Extracellular Matrix.// Annu. Rev. Mater. Res. 2011. V.41. P.133–68.9670. Rigozzi S., Stemmer A., Müller R., Snedeker J.G. Mechanical response of individualcollagen fibrils in loaded tendon as measured by atomic force microscopy. // J. Struct.Biol. 2011. V.176. P.9–15.71. Ng L., Grodzinsky A.J., Patwari P., Sandy J., Plaas A., Ortiz C. Individual cartilageaggrecan macromolecules and their constituent glycosaminoglycans visualized viaatomic force microscopy.
// J. Struct. Biol. 2003. V.143. P.242–257.72. Knudson C.B., Knudson W. Cartilage Proteoglycans. // Cell & Develop. Biol. 2001.V.12. P.69–78.73. Theocharis D.A., Tsiganos C.P. Age-related changes of proteoglycan subunits fromsheep nasal cartilage. // Int. J. Biochem. 1985. V.17. № 4. P.479-484.74. Höhne G.W.H., Hemminger W.F., Flammersheim H.J. Differential ScanningCalorimetry: An Introduction for Practitioners. // Berlin: Springer-Verlag GmbH. 2003.222 p.75.
Yurchenco P.D., Birk D.E., Mecham R.P. Extracellular matrix assembly and structure.Academic Press San Diego CA. 1990. P 351–388.76. Ignatieva N.Yu,. Lunin V.V., Averkiev S.V., Maiorova A.F., Bagratashvili V.N., SobolE.N. DSC investigation of connective tissues treated by IR-laser radiation. //Thermochimica Acta. 2004. V.422. P.43–48.77.
Szanto Z., Kovacs G., Nagya V., Roth E., Molnar T.F., Horvath P. Differential scanningcalorimetric examination of the tracheal cartilage after primary reconstruction withdifferential suturing techniques. // Thermochimica Acta. 2006. V.445. P.190–194.78. Ignatyeva N.Yu., Sobol E.N., Lunin V.V., Averkiev S.V., Bagratashvili V.N., SviridovA.P., Korobov M.V. Modification of collagen-containing tissues by IR laser radiation. //Laser Physics.
2003. V. 13. №. 1. P. 52–57.79. Ignatyeva N.Yu, Averkiev S.V., Sobol E.N., Lunin V.V. Denaturation of Collagen II ina Cartilaginous Tissueduring Its Thermal and Laser Heating. // Russian Journal ofPhysical Chemistry. 2005. V. 79, №. 8. P. 1333–1340.80.
Murthy Sh.K.. Nanoparticles in modern medicine: State of the art and future challenges.// Int. J. Nanomedicine. 2007. V.2. №2. P.129–141.9781. Zhang L., Gu F.X., Chan J.M., Wang A.Z., Langer R.S., Farokhzad O.C. Nanoparticlesin Medicine: Therapeutic Applications and Developments. // Clinical Pharmacology &Therapeutics. 2008. V.83. P.761 - 769.82.
McGloin D., Optical tweezers: 20 years on. // Phil. Trans. R. Soc. A. 2006. V.364.P.3521 - 3537.83. Ankamwar B., Lai T.C., Huang J.H. Liu R.S., Hsiao M., Chen C.H., Hwu Y.K.Biocompatibility of Fe3O4 nanoparticles evaluated by in vitro cytotoxicity assays usingnormal, glia and breast cancer cells. // Nanotechnology. 2010. V.21. P.075102.84. CenterWatch.
Retrieved 2012-06-20. Newly Approved Drug Therapies (105)GastroMARK,AdvancedMagnetics.2012.https://www.centerwatch.com/drug-information/fda-approved-drugs/drug/105/gastromark.85. Corot C., Robert P., Idée J-M, Port M. Recent advances in iron oxide nanocrystaltechnology for medical imaging.
// Adv. Drug Deliver. Rev. 2006. V.58. P.1471–1504.86. Markides H. Kehoe O., Morris R.H., El Haj A.J., Whole body tracking ofsuperparamagnetic iron oxide nanoparticle-labelled cells – a rheumatoidarthritis mousemodel. // Stem Cell Research & Therapy. 2013. V.4. P.126.87. Oh J., Feldman M.D., Kim J., Condit C., Emelianov S., Milner T., Detection ofmagnetic nanoparticles in tissue using magnetomotive ultrasound. // Nanotechnology.2006. V.17. P.4183 - 4190.88. Pankhurst Q. A., Connolly J., Jones S.
K., Dobson J., Applications of magneticnanoparticles in biomedicine. // J. Phys. D: Appl. Phys. 2003. V.36. P. R167 - 197.89. Krishnan K.M., Biomedical nanomagnetics: A Spin through possibilities in Imaging,diagnostics and therapy. // IEEE Transactions on Magnetics. 2010. V.46. № 7. P.2523 2557.90.
Markides H., Rotherham M., El Haj A.J., Biocompatibility and Toxicity of MagneticNanoparticles in Regenerative Medicine. // J. Nanomater. 2012. ID 614094.91. Mahmoudi M., Simchi A., Imani M., Shokrgozar M.A., Milani A.S., Häfeli U.O.,Stroeve P., A new approach for the in vitro identification of the cytotoxicity ofsuperparamagnetic iron oxide nanoparticles. // Colloids and Surfaces B. 2010. V.75. №1.P.300–309.9892. Rothenfluh D.A., Bermudez H., O’Neil C.P., Hubell J.A., Biofunctional polymernanoparticles for intra-articular targeting and retention in cartilage. // Nat Materials.2008. V.7.
P.248-254.93. Freedman J.D., Lusic H., Snyder B.D., Grinstaff M.W., Tantalum oxide nanoparticlesfor the imaging of articular cartilage using X-ray computed tomography: visualization ofex vivo/in vivo murine tibia and ex vivo human index finger cartilage. // Angew. Chem.Int. Ed. Engl. 2014. V.53. №32. P.8406-8410.94. Bourrinet P., Bengele H., Bonnemain B., Dencausse A., Idée J.M., Jacobs P., Lewis J.,Preclinical safety and pharmacokinetic profile of ferumoxtran-10 an ultrasmallsuperparamagnetic iron oxide magnetic resonance contrast agent. // Invest.
Radiol. 2006.V.413. P.313–324.95. Schulze E., Ferrucci Jr.J.T., Poss K., Lapointe L., Bogdanova A., Weissleder R.,Cellular uptake and trafficking of a prototypical magnetic iron oxide label in vitro. //Invest. Radiol. 1995. V.30. P.604–610.96. Никифорова Т.Е., Омельченко А.И., Соболь Э.Н., Магнитолазерное управлениераспределением ферромагнитных наночастиц в гидратированных тканях и гелях. //Перспективные материалы. 2008. Т.6. №1.
С.450-453.97. Афонькин В.Ю., Добрецов К.Г., Кириченко А.К., Ладыгина В.П., Сипкин А.В.,Стимуляция проникновения магнитных наночастиц в хрящевую и костную ткань спомощью градиента магнитного поля. // Сибирское медицинское обозрение. 2008.Т.50. №2. С.37-39.98. Baum O. I., Golubev V.V., Omelchenko A.I., Sobol E.N., Shekhter A.B., Advance ofmagnetic nanoparticles application in laser diagnostics and healing of cartilage damage.In: 3th Eurasian congress on medical physics and engineering. 2010. V.3. P.222 - 224.99.
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