Proliferation and differentiation of mesenchymal stem cell on collagen sponge reinforced with polypropylene/polyethylene terephthalate blend fibers

Tissue Engineering - Part A

Volumn 16, Issue 12, 2010, Pages 3821-3830

  Mohajeri, Sara ^a   Hosseinkhani, Hossein ^b   Ebrahimi, Nadereh Golshan ^a   Nikfarjam, Laleh ^c   Soleimani, Masoud ^a   Kajbafzadeh, Abdol Mohammad ^c  

^a TARBIAT MODARES UNIVERSITY   (Iran)

^b NATIONAL YANG MING UNIVERSITY   (Taiwan)

^c TEHRAN UNIVERSITY OF MEDICAL SCIENCES   (Iran)

Author keywords

[No Author keywords available]

Indexed keywords

ALDEHYDES; BIOMECHANICS; CELL CULTURE; COLLAGEN; COMPRESSIVE STRENGTH; FIBERS; MECHANICAL PROPERTIES; OXYGEN; POLYETHYLENE TEREPHTHALATES; REINFORCED PLASTICS; SCAFFOLDS; SCANNING ELECTRON MICROSCOPY; STEM CELLS; THERMOPLASTICS; TISSUE; TISSUE ENGINEERING;

BLEND FIBERS; BONE TISSUE ENGINEERING; COLLAGEN SPONGE; GLUTARALDEHYDES; INTERCONNECTED PORES; MESENCHYMAL STEM CELL; OSTEOGENIC DIFFERENTIATION; POROUS SCAFFOLD; SCAFFOLD MATERIALS; TEREPHTHALATE; TISSUE ENGINEERING APPLICATIONS; TISSUE-ENGINEERED SCAFFOLDS; WASTE PRODUCTS;

TEXTILE BLENDS;

COLLAGEN; POLYETHYLENE TEREPHTHALATE; POLYPROPYLENE;

ANIMAL; ARTICLE; CELL CULTURE; CELL DIFFERENTIATION; CELL PROLIFERATION; CHEMISTRY; CYTOLOGY; MESENCHYMAL STEM CELL; METHODOLOGY; PHYSIOLOGY; RAT; SCANNING ELECTRON MICROSCOPY; TISSUE ENGINEERING; ULTRASTRUCTURE;

ANIMALS; CELL DIFFERENTIATION; CELL PROLIFERATION; CELLS, CULTURED; COLLAGEN; MESENCHYMAL STEM CELLS; MICROSCOPY, ELECTRON, SCANNING; POLYETHYLENE TEREPHTHALATES; POLYPROPYLENES; RATS; TISSUE ENGINEERING;

EID: 78650072652     PISSN: 19373341     EISSN: 1937335X     Source Type: Journal    
DOI: 10.1089/ten.tea.2009.0520     Document Type: Article

References (54)

1. Khan, S.N., Cammisa, F.P., Sandhu, H.S., Diwan, A.D., Girardi, F.P., and Lane, J.M. The biology of bone grafting. J Am Acad Orthop Surg 13, 77, 2005.
2. De Long, W.G., Einhorn, T.A., Koval, K., McKee, M., Smith, W., Sanders, R., and Watson, T. Bone grafts and bone graft substitutes in orthopaedic trauma surgery. J Bone Joint Surg Am 89, 649, 2007.
3. Hak, D.J. The use of osteoconductive bone graft substitutes in orthopaedic trauma. J Am Acad Orthop Surg 15, 525, 2007.
4. Jabbari, E., Lu, L., Currier, B.L., Mikos, A.G., and Yaszemski, M.J. Injectable polymers and hydrogels for orthopedic and dental applications. In: Sandell, L.J., Grodzinsky, A.J., eds. Tissue Engineering in Musculoskeletal Clinical Practice. Rosemont: American Academy of Orthopaedic Surgeons, 2004, pp. 331-40.
5. Jabbari, E., Lu, L., and Yaszemski, M.J. Synthesis and characterization of injectable and biodegradable composites for orthopedic applications. In: Mallapragada, S.K., and Nar-asimhan, B., eds. Handbook of Biodegradable Polymeric Materials and Their Applications. Stevenson Ranch: American Scientific Publishers, 2004, pp. 239-270.
6. Jones, C.B., and Mayo, K.A. Nonunion treatment: iliac crest bone graft techniques. J Orthop Trauma 19, S11, 2005.
7. Rush, S.M. Bone graft substitutes: osteobiologics. Clin Po-diatr Med Surg 22, 619, 2005.
8. Eppley, B.L., Pietrzak, W.S., and Blanton, M.W. Allograft and alloplastic bone substitutes: a review of science and technology for the craniomaxillofacial surgeon. J Craniofac Surg 16, 981, 2005.
9. Carter, G. Harvesting and implanting allograft bone. AORN J 70, 660, 1999.
10. Kneser, U., Schaefer, D.J., Polykandriotis, E., and Horch, R.E. Tissue engineering of bone: the reconstructive surgeon's point of view. J Cell Mol Med 10, 7, 2006.
11. Cancedda, R., Giannoni, P., and Mastrogiacomo, M. A tissue engineering approach to bone repair in large animal models and in clinical practice. Biomaterials 28, 4240, 2007.
12. Peppas, N.A., and Langer, R. New challenges in biomateri-als. Science 263, 1715, 1994.
13. Hosseinkhani, H., Hosseinkhani, M., Hattori, S., Matsuoka, R., and Kawaguchi, N. Micro and nanoscale in vitro 3D culture for cardiac stem cells. J Biomed Mater Res A 94, 1, 2010.
14. Hosseinkhani, H., Hosseinkhani, M., Khademhosseini, A., Gabrielson, N.P., Pack, D.W., and Kobayashi, H. DNA na-noparticles encapsulated in 3-D tissue engineered scaffold enhance osteogenic differentiation of mesenchymal stem cells. J Biomed Mater Res A 85, 47, 2008.
15. Hosseinkhani, H., Hosseinkhani, M., Tian, F., Kobayashi, H., and Tabata, Y. Ectopic bone formation in collagen sponge self-assembled peptide-amphiphile nanofibers hybrid scaffold in a perfusion culture bioreactor. Biomaterials 27, 5089, 2006.
16. Tian, F., Hosseinkhani, H., Hosseinkhani, M., Khademhossei-ni, A., Yokoyama, Y., and Estrada, G. A quantitative analytical method to measure cell adhesion on aligned micro- and na-nofibers. J Biomed Mater Res A 84, 291, 2008.
17. Hosseinkhani, H., Hosseinkhani, M., Tian, F., Kobayashi, H., and Tabata, Y. Bone regeneration on a collagen sponge-self assembled peptide-amphiphile nanofibers hybrid scaffold. Tissue Eng 13, 1, 2007.
18. Hosseinkhani, H., Hosseinkhani, M., Khademhosseini, A., and Kobayashi, H. Bone regeneration through controlled release of bone morphogenetic protein-2 from 3-D tissue engineered nano-scaffold. J Controlled Release 117, 380, 2007.
19. Yang, S., Leong, K.F., Du, Z., and Chua, C.K. The design of scaffolds for use in tissue engineering. Part 1. Traditional factors. Tissue Eng 7, 679, 2001.
20. Hiraoka, Y., Kimura, Y., Ueda, H., and Tabata, Y. Fabrication and biocompatibility of collagen sponge reinforced with poly (glycolic acid) fiber. Tissue Eng 9, 1101, 2003.
21. Liu, X., Huang, C., Feng, Y., Liang, J., Fan, Y., Gu, Z., and Zhang, X. Reinforcement of a porous collagen scaffold with surface-activated PLA fibers. J Biomater Sci Polym Ed 21, 963, 2010.
22. Smolko, E., Mazzei, R., Tadey, D., and Lombardo, D. Attachment and spreadout study of 3T3 cells onto PP track etched films. Nucl Instrum Methods Phys Res 185(B), 204, 2001.
23. Felemovicius, I., Bonsack, M.E., Hagerman, G., and Delaney, J.P. Prevention of adhesion to polypropylene mesh. J Am Coll Surg 198, 543, 2004.
24. Abed, A., Deval, B., Assoul, N., Bataille, I., Portes, P., Louedec, L., Henin, D., Letourneur, D., and Meddahi-Pelle, A. A biocompatible polysaccharide hydrogel-embedded polypropylene meshes for enhanced tissue integration in rats. Tissue Eng A 14, 519, 2008.
25. Li, Y., Ma, T., Yang, S.T., and Kniss, D.A. Thermal compression and characterization of three-dimensional nonwo-ven PET matrices as tissue engineering scaffolds. Biomaterials 22, 609, 2001.
26. Kim, M.S., Shin, Y.N., Cho, M.H., Kim, S.H., Kim, S.K., Cho, Y.H., Khang, G., Lee, W., and Lee, H.B. Adhesion behavior of human bone marrow stromal cells on differentially wet-table polymer surfaces. Tissue Eng 13, 2095, 2007.
27. Mishell, B.B., Shiigi, S.M., Henry, C., Chan, E.L., North, J., Gallily, R., Slomich, M., Miller, K., Marbrook, J., Parks, D., and Good, A.H. Preparation of mouse cell suspension. In: Mishell, B.B., and Shiigi, S.M., eds. Selected Methods in Cellular Immunology. Sanfrancisco: W. H. FREEMAN AND COMPANY, 1980, pp. 3-27.
28. Mandal, B.B., and Kundu, S.C. Cell proliferation and migration in silk fibroin 3D scaffolds. Biomaterials 30, 2956, 2009.
29. Kun, H., Fuzhai, C., Qiang, L., Jun, M., Qingling, F., Li, X., and Daidi, F. Preparation of fibroin/recombinant humanlike collagen scaffold to promote fibroblasts compatibility. J Biomed Mater Res A 84A, 483, 2007.
30. Qiang, L., and QingLing, F. Preparation of 3-D regenerated fibroin scaffolds with freeze drying method and freeze drying/foaming technique. J Mater Sci Mater Med 17, 1349, 2006.
31. Li, X., Feng, Q., and Cui, F. In vitro degradation of porous nanohydroxyapatite/collagen/PLLA scaffold reinforced by chitin fibers. Mater Sci Eng C 26, 716, 2006.
32. Tu, C., Cai, Q., Yang, J., Wan, Y., Bei, J., and Wang, S. The fabrication and characterization of poly (lactic acid) scaffolds for tissue engineering by improved solid-liquid phase separation. Polym Adv Technol 14, 565, 2003.
33. Li, X.K., Cai, S.X., Liu, B., Xu, Z.L., Dai, X.Z., Ma, K.W., Li, S.Q., Li, Y., Sung K.L.P., and Fu, X.B. Characteristics of PLGA-gelatin complex as potential artificial nerve scaffold. Colloids Surf B Biointerfaces 57, 198, 2007.
34. Minuth, W.W., Sittinger, M., and Kloth, S. Tissue engineering: generation of differentiation of artificial tissues for bio-medical applications. Cell Tissue Res 291, 1, 1998.
35. Hosseinkhani, H., Yamamoto, M., Inatsugu, Y., Hiraoka, Y., Inoue, S., Shimokawa, H., and Tabata, Y. Enhanced ectopic bone formation using combination of impregnation of plasmid DNA into 3-D scaffold and bioreactor perfusion culture. Biomaterials 27, 1387, 2006.
36. Hosseinkhani, H., Hosseinkhani, M., Tian, F., Kobayashi, H., and Tabata, Y. Osteogenic differentiation of mesenchymal stem cells in self assembled-peptide amphiphile nanofibers. Biomaterials 27, 4079, 2006.
37. Hosseinkhani, H., Azzam, T., Kobayashi, H., Hiraoka, Y., Shimokawa, H., Domb, A.J., and Tabata, Y. Combination of 3-D tissue engineered scaffold and non-viral gene carrier enhance in vitro DNA expression of mesenchymal stem cells. Biomaterials 27, 4269, 2006.
38. Hosseinkhani, H., Hosseinkhani, M., Tian, F., Kobayashi, H., and Tabata, Y. Ectopic bone formation in collagen sponge-self assembled peptide amphiphile nanofibers hybrid scaffold in a perfusion culture bioreactor. Biomaterials 27, 5089, 2006.
39. Golshan Ebrahimi, N., and Hassannejad, M. Investigation of the properties of produced blend fibers from modified PP with PET. Iran J Polym Sci Technol 13, 13, 2000.
40. Lu, J.X., Flautre, B., Anselme, K., Hardouin, P., Gallur, A., Descamps, M., and Thierry, B. Role of interconnections in porous bioceramics on bone recolonization in vitro and in vivo. J Mater Sci Mater Med 10, 111, 1999.
41. Sarazin, P., Roy, X., and Favis, B.D. Controlled preparation and properties of porous poly (L-lactide) obtained from a co-continuous blend of two biodegradable polymers. Bioma-terials 25, 5965, 2004.
42. Dennis, J.E., Haynesworth, S.E., Young, R.G., and Caplan, A.L. Osteogenesis in marrowderived mesenchymal cell porous ceramic composites transplanted subcutaneously: effect of fibronectin and laminin on cell retention and rate of os-teogenic expression. Cell Transplant 1, 23, 1992.
43. Hosseinkhani, H., Inatsugu, Y., Hiraoka, Y., Inoue, S., and Tabata, Y. Perfusion culture enhances osteogenic differentiation of rat mesenchymal stem cells in collagen sponge reinforced with poly (glycolic acid) fiber. Tissue Eng 11, 1476, 2005.
44. Hosseinkhani, H., Inatsugu, Y., Hiraoka, Y., Inoue, S., Shi-mokawa, H., and Tabata, Y. Impregnation of plasmid DNA into 3-D scaffold and medium perfusion enhance in vitro DNA expression of mesenchymal stem cells. Tissue Eng 11, 1459, 2005.
45. Li, X., Feng, Q., Jiao, Y., and Cui, F. Collagen-based scaffolds reinforced by chitosan fibres for bone tissue engineering. Polym Int 54, 1034, 2005.
46. Anselme, K. Osteoblast adhesion on biomaterials. Bioma-terials 21, 667, 2000.
47. Van Wachem, P.B., Beugeling, T., Feijen, J., Bantjes, A., Detmers, J.P., and Van Aken, W.G. Interaction of cultured human endothelial cells with polymeric surfaces of different wettabilities. Biomaterials 6, 403, 1985.
48. Van Wachem, P.B., Hogt, A.H., Beugeling, T., Feijen, J., Bantjes, A., Detmers, J.P., and Van Aken, W.G. Adhesion of cultured human endothelial cells onto methacrylate polymers with varying surface wettability and charge. Bio-materials 8, 323, 1987.
49. Tamada, Y., and Ikada, Y. Effect of preadsorbed proteins on cell adhesion to polymer Surfaces. J Colloid Interface Sci 155, 334, 1993.
50. Tamada, Y., and Ikada, Y. Fibroblast growth on polymer surfaces and biosynthesis of Collagen. J Biomed Mater Res 28, 783, 1994.
51. Hosseinkhani, H., Hosseinkhani, M., Hattori, S., Matsuoka, R., and Kawaguchi, N. Micro and nanoscale in vitro 3D culture for cardiac stem cells. J Biomed Mater Res A 94, 1, 2010.
52. Hosseinkhani, H., Hosseinkhani, M., and Kobayashi, H. Proliferation and differentiation of mesenchymal stem cells using self assembly of peptide-amphiphile nanofibers. Biomed Mater 1, 8, 2006.
53. Hosseinkhani, H., Hosseinkhani, M., and Kobayashi, H. Design of tissue engineered nanoscaffold through self assembly of peptide amphiphile. J Bioact Compat Polym 21, 277, 2006.
54. Cheng, S.L., Yang, J.W., Rifas, L., Zhang, S.F., and Avioli, L.V. Differentiation of human bone marrow osteogenic stromal cells in vitro: induction of the osteoblast phenotype by dexamethasone. Endocrinology 134, 277, 1994.