引用本文: 李青峰. 修復(fù)重建外科未來技術(shù)之我見. 中國修復(fù)重建外科雜志, 2012, 26(1): 4-5. doi: 復(fù)制
| 1. | hair-producing skin. Tissue Eng Part C Methods, 2011, 17(4): 391-400. |
| 2. | stem cells in bone repair and regeneration. J Bone Joint Surg (Br), 2011, 93(4): 427-434. |
| 3. | bone matrix for bone regeneration in a rat critically sized calvarial. |
| 4. | defect model. Stem Cells Dev, 2011, 20(2): 233-242. |
| 5. | effect of oxygen and biomechanics. Int Rev Cell Mol Biol, 2011, 289: 37-87. |
| 6. | engineered from bovine chondrocytes/silk fibroin-chitosan for in vitro cartilage tissue engineering. Biomaterials, 2011, 32(25): 5773-5781. |
| 7. | surgery//Stefan Danilla. Reconstructive Surgery. Croatia: INTECH open access publisher, 2011: inprint. |
| 8. | bone grafts: an experimental study. Ann Plast Surg, 2010, 64(1): 98-104. |
| 9. | 王煒. 組織工程學(xué)是修復(fù)重建外科發(fā)展的里程碑. 組織工程與重建外科雜志, 2005, 1(1): 9-11. |
| 10. | Wu Y, Zhao RC, Tredget EE. Concise review: bone marrow-derived stem/progenitor cells in cutaneous repair and regeneration. Stem Cells, 2010, 28(5): 905-915. |
| 11. | Lee LF, Jiang TX, Garner W, et al. A simplified procedure to reconstitute. |
| 12. | Griffin M, Iqbal SA, Bayat A. Exploring the application of mesenchymal. |
| 13. | Rhee SC, Ji YH, Gharibjanian NA, et al. In vivo evaluation of mixtures of uncultured freshly isolated adipose-derived stem cells and demineralized. |
| 14. | Egli RJ, Wernike E, Grad S, et al. Physiological cartilage tissue engineering. |
| 15. | Bhardwaj N, Nguyen QT, Chen AC, et al. Potential of 3-D tissue constructs. |
| 16. | 楊志明. 修復(fù)重建外科總論. 上海: 第二軍醫(yī)大學(xué)出版社, 2005: 1. |
| 17. | 張滌生, 王煒. 創(chuàng)刊詞. 修復(fù)重建外科雜志, 1987, 1(1): 1. |
| 18. | 張滌生. 修復(fù)重建外科的進展和瞻望. 修復(fù)重建外科雜志, 1987, 1(1): 2-4. |
| 19. | 李青峰, 張滌生. 整形外科研究進展. 中華實驗外科雜志, 2011, 28(3): 327-328. |
| 20. | Qingfeng Li, Mei Yang. Stem cell research: A New era for reconstructive. |
| 21. | Yang M, Li Q, Sheng L, et al. Bone marrow-derived mesenchymal stem cells transplantation accelerates tissue expansion by promoting skin regeneration during expansion. Ann Surg, 2011, 253(1): 202-209. |
| 22. | Yang M, Sheng L, Li H, et al. Improvement of the skin flap survival with the bone marrow-derived mononuclear cells transplantation in a rat model. Microsurgery, 2010, 30(4): 275-281. |
| 23. | Ozdemir R, Kocer U, Tiftikcioglu YO, et al. Axial pattern composite prefabrication of high-density porous polyethylene: experimental and clinical research. Plast Reconstr Surg, 2005, 115(1): 183-196. |
| 24. | Okuda T, Uysal AC, Tobita M, et al. Prefabrication 1 of tissue engineered. |
| 25. | Feucht A, Hoang NT, Hoehnke C, et al. Neovascularisation and free microsurgical transfer of cartilage-engineered constructs. HNO, 2011, 59(3): 239-247. |
| 26. | Zan T, Li Q, Dong J, et al. Transplanted endothelial progenitor cells increase neo-vascularization of rat pre-fabricated flaps. J Plast Reconstr Aesthet Surg, 2010, 63(3): 474-481. |
| 27. | Warnke PH. In-vivo tissue engineering of biological joint replacements. Lancet, 2010, 376(9739): 394-396. |
- 1. hair-producing skin. Tissue Eng Part C Methods, 2011, 17(4): 391-400.
- 2. stem cells in bone repair and regeneration. J Bone Joint Surg (Br), 2011, 93(4): 427-434.
- 3. bone matrix for bone regeneration in a rat critically sized calvarial.
- 4. defect model. Stem Cells Dev, 2011, 20(2): 233-242.
- 5. effect of oxygen and biomechanics. Int Rev Cell Mol Biol, 2011, 289: 37-87.
- 6. engineered from bovine chondrocytes/silk fibroin-chitosan for in vitro cartilage tissue engineering. Biomaterials, 2011, 32(25): 5773-5781.
- 7. surgery//Stefan Danilla. Reconstructive Surgery. Croatia: INTECH open access publisher, 2011: inprint.
- 8. bone grafts: an experimental study. Ann Plast Surg, 2010, 64(1): 98-104.
- 9. 王煒. 組織工程學(xué)是修復(fù)重建外科發(fā)展的里程碑. 組織工程與重建外科雜志, 2005, 1(1): 9-11.
- 10. Wu Y, Zhao RC, Tredget EE. Concise review: bone marrow-derived stem/progenitor cells in cutaneous repair and regeneration. Stem Cells, 2010, 28(5): 905-915.
- 11. Lee LF, Jiang TX, Garner W, et al. A simplified procedure to reconstitute.
- 12. Griffin M, Iqbal SA, Bayat A. Exploring the application of mesenchymal.
- 13. Rhee SC, Ji YH, Gharibjanian NA, et al. In vivo evaluation of mixtures of uncultured freshly isolated adipose-derived stem cells and demineralized.
- 14. Egli RJ, Wernike E, Grad S, et al. Physiological cartilage tissue engineering.
- 15. Bhardwaj N, Nguyen QT, Chen AC, et al. Potential of 3-D tissue constructs.
- 16. 楊志明. 修復(fù)重建外科總論. 上海: 第二軍醫(yī)大學(xué)出版社, 2005: 1.
- 17. 張滌生, 王煒. 創(chuàng)刊詞. 修復(fù)重建外科雜志, 1987, 1(1): 1.
- 18. 張滌生. 修復(fù)重建外科的進展和瞻望. 修復(fù)重建外科雜志, 1987, 1(1): 2-4.
- 19. 李青峰, 張滌生. 整形外科研究進展. 中華實驗外科雜志, 2011, 28(3): 327-328.
- 20. Qingfeng Li, Mei Yang. Stem cell research: A New era for reconstructive.
- 21. Yang M, Li Q, Sheng L, et al. Bone marrow-derived mesenchymal stem cells transplantation accelerates tissue expansion by promoting skin regeneration during expansion. Ann Surg, 2011, 253(1): 202-209.
- 22. Yang M, Sheng L, Li H, et al. Improvement of the skin flap survival with the bone marrow-derived mononuclear cells transplantation in a rat model. Microsurgery, 2010, 30(4): 275-281.
- 23. Ozdemir R, Kocer U, Tiftikcioglu YO, et al. Axial pattern composite prefabrication of high-density porous polyethylene: experimental and clinical research. Plast Reconstr Surg, 2005, 115(1): 183-196.
- 24. Okuda T, Uysal AC, Tobita M, et al. Prefabrication 1 of tissue engineered.
- 25. Feucht A, Hoang NT, Hoehnke C, et al. Neovascularisation and free microsurgical transfer of cartilage-engineered constructs. HNO, 2011, 59(3): 239-247.
- 26. Zan T, Li Q, Dong J, et al. Transplanted endothelial progenitor cells increase neo-vascularization of rat pre-fabricated flaps. J Plast Reconstr Aesthet Surg, 2010, 63(3): 474-481.
- 27. Warnke PH. In-vivo tissue engineering of biological joint replacements. Lancet, 2010, 376(9739): 394-396.