在体组织工程新概念

摘要/Abstract

摘要： 基于对人发角蛋白(HHK)人工腱长达10余年的实验和临床应用研究的结果,我们提出了在体组织工程化肌腱的概念,即HHK人工腱及其降解产物能诱导周围组织内的成腱干细胞增殖、分化为腱细胞并刺激其他细胞分泌某些细胞因子参与调节,最终形成自体腱。我们在实验中还发现,HHK植入损伤骨组织、神经组织和肌组织后在原位构建出相应的组织。从而进一步提出“在体组织工程”新的理论体系。它是指可吸收性生物支架材料植入体内后,通过材料本身及其降解产物激活周围组织自身的成体干细胞分裂、增殖、分化,并在体内生理条件下与基质材料达到最佳的有机融合,并最终完成替代基质材料形成在解剖、组织学意义上与自体组织几乎完全一致的结构,从而在体内完成构建完整的组织工程化组织或器官的过程。在体组织工程不仅利用体内微环境和体内精细的调节机制“在体培养”种子细胞,消除了现行组织工程化组织或器官(传统组织工程)中种子细胞的排斥反应、变异和功能退化及复杂的保存、运输和高额费用等问题,最重要的是更贴近临床需要。不仅有巨大的临床应用潜能,而且尚具有重要的理论价值。

Abstract: From our over a decade-long experience in experiments and clinical applications of human hair keratin (HHK) artificial tendon, a conclusion was drawn that HHK artificial tendon components and their degradation products could stimulate the proliferation and differentiation of tenoblasts in the neighboring tissues into tenocytes. With the regulation of this process by certain cytokines secreted by other cells, autotendons can be finally formed. We also found that after grafting for the tissue defects such as in the bone, nerve and muscle, "in situ construction" of the tissue/organ substitutes occurred, which inspired us to propose a wholly new theoretical system- in vivo tissue engineering, defined as in vivo reconstruction of the defected tissues or organs. The grafted absorbable scaffold biomaterial itself and its degradation products can activate the mitosis, proliferation, and differentiation of adult stem cells in the surrounding tissues, which organically interact with the material to form an organic complex under in vivo physiological conditions. Finally the matrix material is completely replaced by the complex, an almost identical structure with the normal tissue in terms of anatomy and histology. One of the advantages of in vivo tissue engineering is "in vivo construction" of the tissue/organ substitutes in anatomy, histology and function way of "in vivo cultivation" of the seed cells under in vivo microenvironment and in vivo precise regulation mechanism. It solves such problems as immune rejection against seed cells, variation and functional deterioration of the seed cells, complicated preservation procedure, transportation and high cost. The most prominent advantage of this technique is that it best meets the clinical need, not only in the sense of its powerful clinical potential, but also in its significant theoretical value.

中图分类号:

董为人¹, 肖应庆², 朴英杰³, 陈英华¹. 在体组织工程新概念[J]. 南方医科大学学报, 2004, 24(09): 969-974.

DONG Wei-ren¹, XIAO Ying-qing², PIAO Ying-jie³, CHEN Ying-hua¹. In vivo tissue engineering: a new concept[J]. Journal of Southern Medical University, 2004, 24(09): 969-974.

参考文献

[1] Cao Y, Liu Y, Liu W, et al. Bridging tendon defects using autologous tenocyte engineered tendon in a hen model[J]. Plast Reconstr Surg, 2002, 110(5): 1280-9.
[2] 黄凤鸣,韩汉平,宋涛,等.人发肌腱的实验研究与临床应用[J].中华实验外科杂志,1988,5(2):64-5.Huang FM, Han HP, Song T, et al. Experimental study and clinical application o f human hair tendon[J]. Chin J Exp Surg, 1988, 5 (2):64-5.
[3] 项舟,杨志明,蔚凡,等.组织工程人工肌腱的实验研究与临床应用[J].中华手外科杂志,2000,16(3):140-3.Xiang Z, Yang ZM, Wei F, et al. Experimental study of tissue engineering endon[J]. Chin J Hand Surg, 2000; 16(3): 140-3.
[4] Xiao YQ, Wang TD, Dong WR, et al. Analysis of the amino acid components of human hair keratin prosthotendon[J]. Chin J Histochem Cytochem, 2000, 9: 69.
[5] 曹启迪,蔡俊杰.109HH人工腱植入新西兰兔体内后腱化过程观察[J].中华实验外科杂志,1996,13(4):237-8.Cao QD, Cai JJ. Observation of tendonization of artificial tendon 109HH in New Zealand rabbits[J]. Chin J Exp Surg, 1996, 13(4):237-8.
[6] 李其训,安梅,李春晓,等.人发角蛋白材料人工腱的实验研究与临床应用[J].中华创伤杂志,1997,13(5):308-10.Li QX, An M, Li CX, et al. Experimental study of human hair keratin artificial tendon and its clinical application[J]. Chin J Traumatol, 1997, 13(5): 308-10.
[7] 朴英杰,刘连璞,戴云,等.人发角蛋白人工腱植入部位的形态学观察[J].电子显微学报,1998,17(4):423-4.Piao YJ, Liu LP, DAI Y, et al. Morphological observation on the human-hair keration ortificial tendon material in body[J]. J Chin Electron Microscop Soc, 1998, 17(4): 423-4.
[8] 朴英杰,董为人,胡庆柳,等.人发角蛋白人工腱体降解的形态学及泛肽\溶酶体酶的活性变化[J].第一军医大学学报,2001,2l(10):721-3.Piao YJ, Dong WR, Hu QL, et al. Morphology of the degradation of human hair keratin artificial tendon in vivo and activities of ubiquitin and lysosomal enzyme in this process[J]. J First Mil Med Univ/Di Yi Jun Yi Da Xue Xue Bao, 2001, 21(10): 721-3.
[9] 娄莉.HHK人工腱植入兔跟腱诱导自体腱形成机制的研究[J].医学硕士学位论文,2001,7-51.Lou L. The mechanism of formation of autogenous tendon in Rabbit achilles tendon induced by HHK-artificial tendon implanted[J].Acad Papers of Med Master, 2001, 7-51.
[10] 王贵波,梁崇礼,王晓芹.人发人工腱体内演变过程中应力作用实验研究[J].中国实验动物学报,2001,9(4):236-8.Wang GB, Liang CL, Wang XQ. The role of stress in the tendonization of human hair artificial tendon[J]. Acta Lab Anim Sci Sin,2001, 9(4): 236-8.
[11] 蒋东萍,娄莉,董为人,等.人发角蛋白人工腱体内降解机制的形态学研究[J].解剖学杂志,2001,24(3):212-5.Jiang DP, LOU L, DONG WR, et al. A morphological study on the degradation mechanism of implanted HHK artificial tendon[J].Chin J Anat, 2001, 24(3): 212-5.
[12] 胡庆柳,彭心昭,傅文玉,等.人发角蛋白人工腱诱导兔自体腱修复时转化因子β1,2,3mRNA及其泛素的表达和分布[J].中华创伤杂志,2001,17(2):102-4.Hu QL, Peng XZ, Fu WY, et al. Expression and distribution of TGF-β1,2,3 mRNA and ubiquitin during rabbit tendon repair induced by artificial tendon HHK-Ⅱ[J]. Chin J Traumatol, 2001, 17 (2):102-4.
[13] 李祥明,段朝周,李其训,等.人工腱修复髌韧带的效果观察[J].中国矫形外科杂志,2000,7(10):970.Li XM, Duan CZ, Li QX, et al. Observation on effect of artificial tendon for repairing patellar tendon the orthopedic[J]. Chin Orthop J, 2000, 7(10): 970.
[14] 李其训.人工腱材料实验与临床[M].云南科技出版社,1996,12(1):53-4.Li QX. Experiment and clinical of artificial tendon materical[M].Science technological publishing house ofyunnan, 1996, 12(1): 53-4.
[15] 邹云雯,夏精武,季爱玉,等.人发角蛋白人工肌腱的免疫学研究及临床应用的初步结果[J].中华手外科杂志,1999,15(4):208-11.Zou YW, Wang ZJ, Ji AY, et al. Immunological study on human hair keratin artificial tendon and the preliminary results of its clinical application[J]. Chin J Hand Surg, 1999, 15(4) 208-11.
[16] 邹云雯,夏精武,季爱玉,等.人发角蛋白人工腱的临床应用[J].青岛医学院学报,1997,33(3):197-8.Zou YW, Xia JW, Ji AY, et al. The clinical application of human hair keratin artificial tendon[J]. Acta Acad Med Qingdao, 1997, 33(3): 197-8.
[17] 王贵波,梁崇礼,王晓芹.人发人工腱兔体内跟腱置换及肌肉埋植后的转归[J].中国临床康复,2002,6(4):507-11.Wang GB, Liang CL, Wang XQ. Pathological changes of human hair artificial tendon used as substitute for the achilles tendon and embedded in the muscle in rabbits[J]. Chin J Rehabil, 2002, 6(4):507-11.
[18] 陆声,李涛,梁崇礼,等.人发角蛋白人工腱肌肉植入的组织相容性观察[J].中国实验动物学报,2001,9(3):173-77.Lu S, Li T, Liang CL, et al. Degradation and biocompatibility investigation of human-hair keratin artificial tendon material in body[J]. Acta Lab Anim Sci Sin, 2001, 9(3): 173-77.
[19] 胡庆柳,朴英杰,邹飞,等.人发角蛋白导管修复周围神经缺损的实验研究[J].第一军医大学学报,2002,22(9):784-7.Hu QL, Piao YJ, Zou F, et al. Experimental study of repairing peripheral nerve damage with conduit made of human hair keratin[J]. J First Mil Med Univ/Di Yi Jun Yi Da Xue Xue Bao, 2002, 22(9): 784-7.
[20] 胡庆柳,朴英杰,彭心昭,等.人发角蛋白神经导管诱导兔胫神经缺损部分再生时泛素的表达及分布[J].中国临床解剖学杂志,2002,22(9)784-7.Hu QL, Piao YJ, Peng XZ, et al. Expression and distribution of ubiquitin during the repair period of damaged rabbit shank nerve induced by nerve conduit made of human hair keratin[J]. Chin J Clin Anat, 2002, 22(9) 784-7.
[21] 乔东访,路艳蒙,傅文玉,等.人发角蛋白材料植入修复受损骨骼肌后降解过程的观察[J].第一军医大学学报,2002,22(10):902-4.907.Qiao DF, Lu YM, Fu WY, et al. Degradation of human hair keratin scaffold implanted for repairing injured skeletal muscles[J]. J First Mil Med Univ/Di Yi Jun Yi Da Xue Xue Bao, 2002, 22(10): 902-4,907.
[22] 顾玉东."谈谈开展肌腱外科应注意的几个基本问题"[J].中华外科杂志,1995,33(9):515-6.Gu YD. Some basic problems on tendon surgery[J]. Chin J Surg,1995, 33(9): 515-6.