Возможности тканевой инженерии в регенерации суставного хряща

1. <div><p>Викторов И.В. Сухих Г.Т. Медико-биологические аспекты применения стволовых клеток. Вестн. Акад. мед. наук, 2002, 24- 30.</p><p>Виноградова Т.П. К вопросу о пластичности хрящевой ткани. Арх. анат., 1961, т. 40, 3, 73 - 81.</p><p>Волков М.В. Оганесян О.В. Лечение повреждений суставов и костей с помощью аппаратов авторов. Ташкент, 1978. 20</p><p>Илизаров Г.А. Некоторые проводимые нами фундаментальные исследования и их общебиологическое значение. Курган. 1991, 125</p><p>Лавришева Г.И. Оноприенко Г.А. Морфологические и клинические аспекты рспаративной регенерации опорных органов и тканей. М., 1996, 206</p><p>Лопухин Ю.М. Этико-правовые основы проблемы стволовых клеток и "терапевтического клонирования". Мед. кафедра, 2002, 2, 6 - 9, 113 - 119.</p><p>Лучихина Л.В. Раняя диагностика и патогенетическая терапия артроза. Автореф. дисс.. д.м.н,, М., 1998, 43</p><p>Омельяненко Н.П. Ориентационный анализ ультраст- руктурной архитектоники волокнистой основы суставного хряща человека. Арх. анат., 1989, т. 97, 7, 39 - 47.</p><p>Омельяненко Н.П., Малахов О.А., Карпов И.Н., Сухих Г.Т., Кожевников О.В. Влияние фетальной костной ткани на репаративную регенерацию кости. Вестн. травматол. ортопед, им. Н.Н. Приорова. 2002, 1, 3540.</p><p>Сигидин Я.А., Лукина Г.В. Базисная патогенетическая терапия ревматоидного артрита. М. 2000, 100</p><p>Стецула В.И. Системные представления об организации аппарата движения. Адаптационно-компенсаторные и восстановительные процессы в тканях опорнор- двигательного аппарата., Киев, 1984, 200</p><p>Чайлахян Р.К., Лалыкина К.С. Спонтанная и индуцированная дифференцировка ткани в популяции фиб- робластоподобных клеток, полученных из длительных монослойных культур костного мозга и селезенки. Докл. Акад. наук, 1969, 187, 2.</p><p>Чертков И.Л., Фриденштейн А.Я. Клеточные основы кроветворения. М. 1977, 272</p><p>А. Хэм, Д. Кормак. Гистология. М., 1983, т.З, 291</p><p>Alleyne К., Galloway М. Management of osteochondral injuries of the knee, 2001, 20 (2), 343 - 364.</p><p>Barone L. Cultured autologous chondrocyte implantation for cartilage repair. Genzyme Tissue Repair, Cambrige, Mass, 1997, 1- 8.</p><p>Bassleer C., Franchimont P. In vitro study of chondrocyte functions. Osteoarthritis: a suitable case for treatment. Proc. Symp. XI Eur. Cong. Rheum., Athen, 1987, 25 - 35.</p><p>Blunk Т., Sieminski A., Gooch K. et al. Differential effects of growth factors on tissue engineered cartilage. Tissue Eng., 2002, 8 (1). 73 - 84.</p><p>Bobic V. The utilisation of osteochondral autologous grafts in the treatment of articular cartilage lesions. Orthopade, 1999, 28 (1). 19 - 25.</p><p>Brittberg М., Lindahl A., Nilson A. et al. Treatment of deep cartilage defects in the knee with autologous chondrocyte transplantation. New Eng. J. Med,, 1994, 331 (6), 889 - 895.</p><p>Brittberg M. Autologous chondrocyte transplantation. Clin. Orthop, 1999, 367 (S). 147 - 155.</p><p>Buckwalter J., Mankin H. Articular cartilage: degeneration and osteoarthritis, repair, regeneration and transplantation. Instr. Course Lect., 1998, 47, 487 - 504.</p><p>Caplan A., Elyaderany М., Mochizuki Y. et al, Principles of cartilage repair and regeneration. Clin. Orthop. 1997, 342, 254 - 269.</p><p>Erlacher L., Ng С. K., Ulrich R. Presence of cartilage derived morphogenic proteins in articular cartilage and enchancement of matrix replacement in vivo. Arthr. Rheum. 1998, 41, 263 - 273.</p><p>Gillogly S.D., Voight M„ Blackburn T. Treatment of articular cartilage defects of the knee with autologous chondrocyte implantation. J. Orthop. Sports. Phys, Ther., 1998. 28 (4), 241 - 251.</p><p>Grande D., Pitman М., Peterson L. et al. The repair of experimentally produced defects in rabbit cartilage by autologous chondrocvte transplantation. J. Orthop. Res., 1989. 7, 208 - 218.</p><p>Grodzinsky A., Levenston М., Jin М. Frank E. Cartilage tissue remodeling in response to mcchanical forces. Ann. Rev. Biomed. Eng., 2000, 2, 691 - 713.</p><p>Hosaka N., Nose М. Kyogoku M. et al. Thymus transplantation, a critical factor for correction of autoimmune disease in MRL- mice. Proc. Natl. Acad. Sci., 1996, 93, 8558 - 8562.</p><p>Ishida Т., Inaba М., Sugiura K. et al. Requirment of donor derived stromal cells in the bone marrow for successful allogenic bone marrow transplantation. J. Immunol., 1994, 15, 152 (6), 3119 - 3127.</p><p>Ikehara S. Bone marrow transplantation for autoimmune diseases. Acta Haematol., 1998, 99, (3), 116 - 132.</p><p>Jimenez S. Biochemical aspects of repair and its cellular control. Osteoarthritis: a suitable case for treatment. Proc. Symp. XI Eur. Cong. Rheum., Athen, 1987, 19 - 25,</p><p>Jorgensen C., Noel D. Apparailly F., Sany J. Stem cells for repair of cartilage and bone. Ann. Rheum. Dis., 2001, 60, 305 - 309.</p><p>Kamil S., Aminuddin B., Bonassar L. et al. Tissue engineered human articular cartilage demonstrates euploidy by flow cytometry. Tissue Eng. 2002, 8, (1), 85 - 92.</p><p>Kaps C., Bramlage Т., Smolian H. et al. Bone mor- phogenic proteins promote cartilage differentation. Arthr. Rheum., 2002, 46 (1), 149 - 162.</p><p>Kim H., Song Y. Apoptotic chondrocyte death in rheumatoid arthritis. Arthr. Rheum., 1999, 42 (7), 1528 - 1537.</p><p>Kim S., Kim S., Evans C. et at. Effective treatment of established murine collagen-induced arthritis by systemic administration of dendritic cells gcnctically modified to express IL-4. J. Immunol., 2001, 166, 3499 - 3505.</p><p>Leitman S., Yanagishita М., Campath T. et al. Stimulation of proteoglycan synthesis in explants of porcine articular cartilage by recombinant osteogenic protein-1. J. Bone Joint Surg., 1997, 79, II, 1132 - 1137.</p><p>Luyten F. DellAccio F., De Bari C. Skeletal tissue engineering: opportunities and challenges. Best Pract. Res. Clin. Rheumatol., 2001, 15 (5). 7559 - 7569.</p><p>Lyyra Т., Jurvelin J., Pitkanen P. et al. Indentation instrument for measurment of cartilage stiffness under arthroscopic control. Med. Eng. Phys., 1995, 17. 395 - 399.</p><p>Mandelbaum B. Browne J., Fu F. et al. Articular cartilage lesions of the knee. Amer. J. Sports Med., 1998, 26,(6), 853 - 861.</p><p>Minas T. Nonarthroplasty management of knee arthritis in the young individual. Curr. Opin. Orthoped., 1998, 9, 46 - 52.</p><p>Minas Т., Neher S. Current concept in the treatment of articular cartilaee defects. Orthopedics, 1997, 20 (6), 525538.</p><p>Muller-Lander U,, Kriegsman J., Franklin B. et al. Synovial fibroblasts of patients with RA attach to and invade normal human cartilage when engrafted into SCID mice. Am. J. Pathol., 1996, 149, (5), 1607 - 1615.</p><p>Muller-Lander U., Roberts C., Franklin B. et al. Human IL-IRa gene transfer into human synovial fibroblasts is chondroprotective. J. Immunol., 1997, 1, 158 (7), 3492 - 3498.</p><p>Nerem R., Sambanis A Tissue engineering: from biology to biological substances. Tissue Eng. 1995, 1.1,3 -12.</p><p>Noguchi Т., Oka М., Fujino M. Repair of osteochondral defects with grafts of cultured chondrocites. Clin. Orthop., 1994, 302, 251 - 258.</p><p>O’Driscoll S., Keely F., Salter R. The chondrogenic potential of free autogenous periostal grafts. J. Bone Joint Surg., 1986, 68-A, 1017 - 1035.</p><p>Pap Т., Franz J.Hummel K. et al. Activation of synovial fibroblasts in rheumatoid arthritis. Arthr. Res., 2002. 2 (1), 59 - 64.</p><p>Paresce E., Murgo A., Fantini F. et al. Cartilage transplants in rheumatic diseases. Surgical approaches in osteoarthr., Milano, 2002, 141 - 143.</p><p>Ranger A., Gerstenfeld L., Wang J. et al. The nuclear factor of activated T-cells transcription factor NFATp is a repressor of chondrogenesis. J. Exp. Med. 2000, 191, 9-21</p><p>Salter R., Harris D., Clements H. The healing of bone and cartilage in transarticular fractures with continuous passive motion. Orthop. Transpl., 1978, 2, 77 - 90.</p><p>Schuldiner М., Yanuka O. Itskovitz-Eldor J. et al. From the cover: effects of eight growth factors on the differentiation of cells derived from human embrionic stem cells. Proc. Natl. Acad. Sci., 2000, 10, 97 (21), 11307 - 11312.</p><p>SoderO., Madsen K. Stimulation of chondrocite DNA synthesis by 1H. , Rheumatology, 1988, 27. 21 - 26.</p><p>Solchaga L., Gao J., Dennis J. Treatment of osteochondral defects with autologous bone marrow in a hyaluronan-based delivery vehicle. Tissue Eng., 2002, S (2), 333 - 347.</p><p>Sittinger I. Tissue engineering: artificial tissue replacement containing vital components. Laringorhinootologie, 1995, 74 (II), 695 - 699.</p><p>Steadman J., Rodkey W., Rodrigo J. Microfracture: surgical technique and rehabilitation to treat chondral defects. Clin. Orthop., 2001, 391 (suppl), 362- 369.</p><p>Stem cells and the futur of regenerative medicine. Natl. Acad. Sci., 2002.</p><p>Stem cells: scientific progress and future research directions. Dept. Health Hum. Serv. Natl. Inst. Health. June. 2001.</p><p>Svensson B., Adell R. Costochondral grafts to replace mandibular condules in juvenile chronic arthritis patients. J. Craniomaxillofac. Surg. 1998. 26 (5). 275 - 285.</p><p>Svensson B., Feldman G., Rindler A. Early surgical orthodontic treatment of mandibular hypoplasia in juvenile chronic arthritis. J. Craniomaxillofac. Surg., 1993, 21 (2). 67 - 75.</p><p>Thompson J., Itskowitch-Eldor J., Shapiro S, et al. Embrionic stem cells lines derived from human blastocvst. Science, 1998, 282, 1145 - 1147.</p><p>Vanbcunigngen H., Glansbeek H., Vander Kraan P. et al. Osteoarthritis like change in the murine knee joint resulting from the intraarticular TGF injection. Osteoarthr. Cartilage, 2000, 8, 25 - 33.</p><p>Verschure P., Marie J., Joosten L. et al. Localisation of insulin-like growth factor-1 receptor in human normal and osteoarthritic cartilage. Brit. J Rheum., 1996, 35, 1044 - 1055.</p><p>Volpi P. Cartilage transplants in sport diseases. Surgical approaches in osteoarthritis, Milano, 2002, 145 - 147.</p><p>Weissman I. Translating stem and progenitor cell biology to the clinic. Science, 2000, 287, 1442 - 1446</p><p>Zuk P., Zhu М. Mizuno H. et al. Multilineage cells from human adipose tissue. Tiss. Eng., 2001. 7. (2). 211 - 228.</p></div><br />