細胞-支架復合物構建組織工程肌腱研究進展_《中國修復重建外科雜志》

作者：

朱穎 , 李敏

福建師范大學生命科學學院（福州，350108）;

關鍵詞：

肌腱組織工程種子細胞支架材料力學刺激

DOI：

10.7507/1002-1892.20130109

視頻：

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目的對細胞-支架復合物構建組織工程肌腱的研究進展進行綜述。方法查閱近年來肌腱組織工程中細胞-支架復合物的相關文獻，并進行綜述，從支架材料、種子細胞、培養方法和應用方面闡述細胞-支架復合物的研究概況。結果肌腱組織工程主要通過對支架材料進行修飾，并復合合適的種子細胞構建細胞-支架復合物。對于復合材料中細胞的培養有多種方法，尤其是力學刺激的應用，能有效促進細胞功能發揮。多種肌腱缺損動物模型研究表明，采用細胞-支架復合物有良好的修復效果。結論細胞-支架復合物構建組織工程肌腱是目前的研究熱點，雖還未達到臨床使用要求，但已顯示了廣闊的應用前景。

引用本文： 朱穎,李敏. 細胞-支架復合物構建組織工程肌腱研究進展. 中國修復重建外科雜志, 2013, 27(4): 481-485. doi: 10.7507/1002-1892.20130109 復制

1.	5 Chaudhury S, Murphy RJ, Carr AJ. Tendon tissue engineering: the potential application of stem cells, biological factors, and repair scaffolds to improve rotator cuff tendon tears. Tendon Tissue Engineering, 2011, 5: 291-310. 6 司紅玉. 組織工程化肌腱修復運動訓練致肌腱組織缺損: 細胞材料及其過程中的相關研究. 中國組織工程研究與臨床康復, 2010, 14(16): 2975-2978.
2.	7 譚貢霞, 張允蚌. 組織工程化肌腱應用于肌腱運動損傷的修復: 研究與應用現狀. 中國組織工程研究與臨床康復, 2010, 14(12): 2225-2228. 8 Ma PX. Biomimetic materials for tissue engineering. Adv Drug Deliv Rev, 2008, 60(2): 184-198.
3.	9 張弛, 蔣垚. 纖維連接蛋白表面修飾對促進新型PET材料人工韌帶(LARS)細胞黏附的實驗研究. 生物骨科材料與臨床研究, 2009, 6(5): 16-20. 10 周峰, 袁琳, 梅巖, 等. “接觸引導” 和重力場復合作用對 L929 細胞生長取向的影響. 科學通報, 2010, (26): 2582-2586. 11 James R, Kumbar SG, Laurencin CT, et al. Tendon tissue engineering: adipose-derived stem cell and GDF-5 mediated regeneration using electrospun matrix systems. Biomed Mater, 2011, 6(2): 025011. 12 Shen W, Chen X, Chen J, et al. The effect of incorporation of exogenous stromal cell-derived factor-1 alpha within a knitted silk-collagen sponge scaffold on tendon regeneration. Biomaterials, 2010, 31(28): 7239-7249. 13 Cooper JA Jr, Bailey LO, Carter JN, et al. Evaluation of the anterior cruciate ligament, medial collateral ligament, achilles tendon and patellar tendon as cell sources for tissue-engineered ligament. Biomaterials, 2006, 27(13): 2747-2754. 14 張文君, 柴殿波, 于建農. 肌腱組織工程的研究進展. 醫學綜述, 2008, 14(10): 1452-1454.
4.	16 Nixon AJ, Watts AE, Schnabel LV. Cell- and gene-based approaches to tendon regeneration. J Shoulder Elbow Surg, 2012, 21(2): 278-294. 17 Hoffmann A, Pelled G, Turgeman G, et al. Neotendon formation induced by manipulation of the Smad8 signalling pathway in mesenchymal stem cells. J Clin Invest, 2006, 116(4): 940-952. 18 Lee JY, Zhou Z, Taub PJ, et al. BMP-12 treatment of adult mesenchymal stem cells in vitro augments tendon-like tissue formation and defect repair in vivo. PLoS ONE, 2011, 6(3): e17531. 19 楊志明. 組織工程. 北京: 化學工業出版社, 2002: 250-257.
5.	20 胡康洪, 姚穎. 三維細胞培養技術的研究與應用. 醫學分子生物學雜志, 2008, 5(2): 185-188. 21 Herchenhan A, Bayer ML, Svensson RB, et al. In vitro tendon tissue development from human fibroblasts demonstrates collagen fibril diameter growth associated with a rise in mechanical strength. Dev Dyn, 2012, 242(1): 2-8. 22 曲彥隆, 楊志明, 解慧琪, 等. 三維培養狀態下肌腱細胞骨架對細胞生物學行為的影響. 中華實驗外科雜志, 2004, 21(6): 657-658, i002. 23 詹興旺, 姜艷, 王文良. 細胞共培養在組織工程研究中的應用及價值. 中國組織工程研究與臨床康復, 2011, 15(20): 3759-3762.
6.	26 Yang PJ. Incorporation of protease-sensitive biomaterial degradation and tensile strain for applications in ligament-bone interface tissue engineering. Georgia Institute of Technology, 2012. 27 Nirmalanandhan VS, Rao M, Shearn JT, et al. Effect of scaffold material, construct length and mechanical stimulation on the in vitro stiffness of the engineered tendon construct. J Biomech, 2008, 41(4): 822-828. 28 Deng D, Liu W, Xu F, et al. Engineering human neo-tendon tissue in vitro with human dermal fibroblasts under static mechanical strain. Biomaterials, 2009, 30(35): 6724-6730. 29 Abousleiman R, Reyes Y, McFetridge P, et al. Tendon tissue engineering using cell-seeded umbilical veins cultured in a mechanical stimulator. Tissue Eng Part A, 2009, 15(4): 787-795. 30 Stops AJ, Heraty KB, Browne M, et al. A prediction of cell differentiation and proliferation within a collagen-glycosaminoglycan scaffold subjected to mechanical strain and perfusive fluid flow. J Biomech, 2010, 43(4): 618-626. 31 Nerurkar NL, Sen S, Baker BM, et al. Dynamic culture enhances stem cell infiltration and modulates extracellular matrix production on aligned electrospun nanofibrous scaffolds. Acta Biomater, 2011, 7(2): 485-491. 32 秦廷武, 楊志明, 解慧琪, 等. 動態應變下肌腱細胞三維培養的初步研究. 華西醫科大學學報, 2002, 33(1): 1-4.
7.	33 Chen JL, Yin Z, Shen WL, et al. Efficacy of hESC-MSCs in knitted silk-collagen scaffold for tendon tissue engineering and their roles. Biomaterials, 2010, 31(36): 9438-9451. 34 Thorfinn J, Angelidis IK, Gigliello L, et al. Bioreactor optimization of tissue engineered rabbit flexor tendons in vivo. J Hand Surg (Eur Vol), 2012, 37(2): 109-114. 35 李宏, 安琦. 肌腱生物反應器的開發與組織工程肌腱的構建. 華東理工大學學報: 自然科學版, 2010, 36(1): 141-145.
8.	36 Saber S, Zhang AY, Ki SH, et al. Flexor tendon tissue engineering: bioreactor cyclic strain increases construct strength. Tissue Eng Part A, 2010, 16(6): 2085-2090. 37 Wang B, Liu W, Zhang Y, et al. Engineering of extensor tendon complex by an ex vivo approach. Biomaterials, 2008, 29(20): 2954-2961. 38 Kuo CK, Marturano JE, Tuan RS. Novel strategies in tendon and ligament tissue engineering: Advanced biomaterials and regeneration motifs. Sports Med Arthrosc Rehabil Ther Technol, 2010, 2: 20. 39 Kryger GS, Chong AK, Costa M, et al. A comparison of tenocytes and mesenchymal stem cells for use in flexor tendon tissue engineering. J Hand Surg (Am), 2007, 32(5): 597-605.
9.	40 朱肖奇, 秦廷武, 楊志明. 細胞黏附基礎與肌腱組織工程. 生物醫學工程學雜志, 2004, 21(2): 329-332. 41 Carpenter JE, Hankenson KD. Animal models of tendon and ligament injuries for tissue engineering applications. Biomaterials, 2004, 25(9): 1715-1722.
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35.	李宗虎, 曲彥隆, 周繼輝, 等. 肌腱組織工程研究新進展. 中國矯形外科雜志, 2007, 15(18): 1406-1407, 1437.
36.	Chen B, Wang B, Zhang WJ, et al. In vivo tendon engineering with skeletal muscle derived cells in a mouse model. Biomaterials, 2012, 33(26): 6086-6097.
37.	Liu Y, Ramanath HS, Wang DA. Tendon tissue engineering using scaffold enhancing strategies. Trends Biotechnol, 2008, 26(4): 201-209.
38.	吳琳琳. PVA/WSF復合納米纖維支架材料在肌腱組織工程的初步研究. 福州: 福建師范大學, 2011.
39.	Sheyn D, Mizrahi O, Benjamin S, et al. Genetically modified cells in regenerative medicine and tissue engineering. Adv Drug Deliv Rev, 2010, 62(7-8): 683-698.
40.	王梓. 大鼠骨髓基質干細胞與肌腱細胞在體外間接共培養的實驗研究. 大連: 大連醫科大學, 2010.
41.	胡春江, 徐宏光. 細胞培養方式與力學刺激. 黑龍江醫藥科學, 2010, 33(6): 19-21.

1. 5 Chaudhury S, Murphy RJ, Carr AJ. Tendon tissue engineering: the potential application of stem cells, biological factors, and repair scaffolds to improve rotator cuff tendon tears. Tendon Tissue Engineering, 2011, 5: 291-310. 6 司紅玉. 組織工程化肌腱修復運動訓練致肌腱組織缺損: 細胞材料及其過程中的相關研究. 中國組織工程研究與臨床康復, 2010, 14(16): 2975-2978.
2. 7 譚貢霞, 張允蚌. 組織工程化肌腱應用于肌腱運動損傷的修復: 研究與應用現狀. 中國組織工程研究與臨床康復, 2010, 14(12): 2225-2228. 8 Ma PX. Biomimetic materials for tissue engineering. Adv Drug Deliv Rev, 2008, 60(2): 184-198.
3. 9 張弛, 蔣垚. 纖維連接蛋白表面修飾對促進新型PET材料人工韌帶(LARS)細胞黏附的實驗研究. 生物骨科材料與臨床研究, 2009, 6(5): 16-20. 10 周峰, 袁琳, 梅巖, 等. “接觸引導” 和重力場復合作用對 L929 細胞生長取向的影響. 科學通報, 2010, (26): 2582-2586. 11 James R, Kumbar SG, Laurencin CT, et al. Tendon tissue engineering: adipose-derived stem cell and GDF-5 mediated regeneration using electrospun matrix systems. Biomed Mater, 2011, 6(2): 025011. 12 Shen W, Chen X, Chen J, et al. The effect of incorporation of exogenous stromal cell-derived factor-1 alpha within a knitted silk-collagen sponge scaffold on tendon regeneration. Biomaterials, 2010, 31(28): 7239-7249. 13 Cooper JA Jr, Bailey LO, Carter JN, et al. Evaluation of the anterior cruciate ligament, medial collateral ligament, achilles tendon and patellar tendon as cell sources for tissue-engineered ligament. Biomaterials, 2006, 27(13): 2747-2754. 14 張文君, 柴殿波, 于建農. 肌腱組織工程的研究進展. 醫學綜述, 2008, 14(10): 1452-1454.
4. 16 Nixon AJ, Watts AE, Schnabel LV. Cell- and gene-based approaches to tendon regeneration. J Shoulder Elbow Surg, 2012, 21(2): 278-294. 17 Hoffmann A, Pelled G, Turgeman G, et al. Neotendon formation induced by manipulation of the Smad8 signalling pathway in mesenchymal stem cells. J Clin Invest, 2006, 116(4): 940-952. 18 Lee JY, Zhou Z, Taub PJ, et al. BMP-12 treatment of adult mesenchymal stem cells in vitro augments tendon-like tissue formation and defect repair in vivo. PLoS ONE, 2011, 6(3): e17531. 19 楊志明. 組織工程. 北京: 化學工業出版社, 2002: 250-257.
5. 20 胡康洪, 姚穎. 三維細胞培養技術的研究與應用. 醫學分子生物學雜志, 2008, 5(2): 185-188. 21 Herchenhan A, Bayer ML, Svensson RB, et al. In vitro tendon tissue development from human fibroblasts demonstrates collagen fibril diameter growth associated with a rise in mechanical strength. Dev Dyn, 2012, 242(1): 2-8. 22 曲彥隆, 楊志明, 解慧琪, 等. 三維培養狀態下肌腱細胞骨架對細胞生物學行為的影響. 中華實驗外科雜志, 2004, 21(6): 657-658, i002. 23 詹興旺, 姜艷, 王文良. 細胞共培養在組織工程研究中的應用及價值. 中國組織工程研究與臨床康復, 2011, 15(20): 3759-3762.
6. 26 Yang PJ. Incorporation of protease-sensitive biomaterial degradation and tensile strain for applications in ligament-bone interface tissue engineering. Georgia Institute of Technology, 2012. 27 Nirmalanandhan VS, Rao M, Shearn JT, et al. Effect of scaffold material, construct length and mechanical stimulation on the in vitro stiffness of the engineered tendon construct. J Biomech, 2008, 41(4): 822-828. 28 Deng D, Liu W, Xu F, et al. Engineering human neo-tendon tissue in vitro with human dermal fibroblasts under static mechanical strain. Biomaterials, 2009, 30(35): 6724-6730. 29 Abousleiman R, Reyes Y, McFetridge P, et al. Tendon tissue engineering using cell-seeded umbilical veins cultured in a mechanical stimulator. Tissue Eng Part A, 2009, 15(4): 787-795. 30 Stops AJ, Heraty KB, Browne M, et al. A prediction of cell differentiation and proliferation within a collagen-glycosaminoglycan scaffold subjected to mechanical strain and perfusive fluid flow. J Biomech, 2010, 43(4): 618-626. 31 Nerurkar NL, Sen S, Baker BM, et al. Dynamic culture enhances stem cell infiltration and modulates extracellular matrix production on aligned electrospun nanofibrous scaffolds. Acta Biomater, 2011, 7(2): 485-491. 32 秦廷武, 楊志明, 解慧琪, 等. 動態應變下肌腱細胞三維培養的初步研究. 華西醫科大學學報, 2002, 33(1): 1-4.
7. 33 Chen JL, Yin Z, Shen WL, et al. Efficacy of hESC-MSCs in knitted silk-collagen scaffold for tendon tissue engineering and their roles. Biomaterials, 2010, 31(36): 9438-9451. 34 Thorfinn J, Angelidis IK, Gigliello L, et al. Bioreactor optimization of tissue engineered rabbit flexor tendons in vivo. J Hand Surg (Eur Vol), 2012, 37(2): 109-114. 35 李宏, 安琦. 肌腱生物反應器的開發與組織工程肌腱的構建. 華東理工大學學報: 自然科學版, 2010, 36(1): 141-145.
8. 36 Saber S, Zhang AY, Ki SH, et al. Flexor tendon tissue engineering: bioreactor cyclic strain increases construct strength. Tissue Eng Part A, 2010, 16(6): 2085-2090. 37 Wang B, Liu W, Zhang Y, et al. Engineering of extensor tendon complex by an ex vivo approach. Biomaterials, 2008, 29(20): 2954-2961. 38 Kuo CK, Marturano JE, Tuan RS. Novel strategies in tendon and ligament tissue engineering: Advanced biomaterials and regeneration motifs. Sports Med Arthrosc Rehabil Ther Technol, 2010, 2: 20. 39 Kryger GS, Chong AK, Costa M, et al. A comparison of tenocytes and mesenchymal stem cells for use in flexor tendon tissue engineering. J Hand Surg (Am), 2007, 32(5): 597-605.
9. 40 朱肖奇, 秦廷武, 楊志明. 細胞黏附基礎與肌腱組織工程. 生物醫學工程學雜志, 2004, 21(2): 329-332. 41 Carpenter JE, Hankenson KD. Animal models of tendon and ligament injuries for tissue engineering applications. Biomaterials, 2004, 25(9): 1715-1722.
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35. 李宗虎, 曲彥隆, 周繼輝, 等. 肌腱組織工程研究新進展. 中國矯形外科雜志, 2007, 15(18): 1406-1407, 1437.
36. Chen B, Wang B, Zhang WJ, et al. In vivo tendon engineering with skeletal muscle derived cells in a mouse model. Biomaterials, 2012, 33(26): 6086-6097.
37. Liu Y, Ramanath HS, Wang DA. Tendon tissue engineering using scaffold enhancing strategies. Trends Biotechnol, 2008, 26(4): 201-209.
38. 吳琳琳. PVA/WSF復合納米纖維支架材料在肌腱組織工程的初步研究. 福州: 福建師范大學, 2011.
39. Sheyn D, Mizrahi O, Benjamin S, et al. Genetically modified cells in regenerative medicine and tissue engineering. Adv Drug Deliv Rev, 2010, 62(7-8): 683-698.
40. 王梓. 大鼠骨髓基質干細胞與肌腱細胞在體外間接共培養的實驗研究. 大連: 大連醫科大學, 2010.
41. 胡春江, 徐宏光. 細胞培養方式與力學刺激. 黑龍江醫藥科學, 2010, 33(6): 19-21.

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細胞-支架復合物構建組織工程肌腱研究進展

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