Characterizations of chondrocyte attachment and proliferation on electrospun biodegradable scaffolds of PLLA and PBSA for use in cartilage tissue engineering

Journal of Biomaterials Applications

Volumn 26, Issue 8, 2012, Pages 963-985

  Wei, Jyh Ding ^a   Tseng, How ^b   Chen, Eric Tsu Hsin ^a   Hung, Ching Hsiang ^c   Liang, Yu Chih ^c   Sheu, Ming Thau ^c   Chen, Chien Ho ^c  

^a ShinKung Memorial Hospital   (Taiwan)

^b TAIPEI MEDICAL UNIVERSITY   (Taiwan)

^c TAIPEI MEDICAL UNIVERSITY   (Taiwan)

Author keywords

electrospun; PBSA; PLLA; primary human chondrocytes; scaffold

Indexed keywords

AVERAGE FIBER DIAMETERS; BIODEGRADABLE SCAFFOLD; CARTILAGE TISSUE ENGINEERING; CASTING FILMS; CELL ATTACHMENTS; CHONDROCYTES; ELECTROSPUNS; FIBROUS SCAFFOLDS; HISTOLOGICAL ANALYSIS; HUMAN CHONDROCYTES; L-LACTIC ACID; MRNA EXPRESSION; PBSA; PHYSICAL CHARACTERISTICS; PLLA; PORE DIAMETERS; TISSUE CULTURE POLYSTYRENES; TYPE II COLLAGENS;

BODY FLUIDS; COLLAGEN; CONTACT ANGLE; GLYCOPROTEINS; LACTIC ACID; POLYMER BLENDS; POLYMERS; POLYSTYRENES; RNA; SCAFFOLDS; THREE DIMENSIONAL; TISSUE CULTURE;

SCAFFOLDS (BIOLOGY);

AGGRECAN; COLLAGEN TYPE 2; LACTIC ACID; MESSENGER RNA; POLYBUTYLENE SUCCINATE CO ADIPATE; POLYBUTYLENE SUCCINATE-CO-ADIPATE; POLYLACTIC ACID; POLYMER; PRIMER DNA;

ARTICLE; CARTILAGE; CELL ADHESION; CELL CULTURE; CELL DIFFERENTIATION; CELL PROLIFERATION; CHEMISTRY; CYTOLOGY; GENETICS; HUMAN; NUCLEOTIDE SEQUENCE; REVERSE TRANSCRIPTION POLYMERASE CHAIN REACTION; SCANNING ELECTRON MICROSCOPY; TISSUE ENGINEERING;

AGGRECANS; BASE SEQUENCE; CARTILAGE; CELL ADHESION; CELL DIFFERENTIATION; CELL PROLIFERATION; CELLS, CULTURED; COLLAGEN TYPE II; DNA PRIMERS; HUMANS; LACTIC ACID; MICROSCOPY, ELECTRON, SCANNING; POLYMERS; REVERSE TRANSCRIPTASE POLYMERASE CHAIN REACTION; RNA, MESSENGER; TISSUE ENGINEERING;

EID: 84860748533     PISSN: 08853282     EISSN: 15308022     Source Type: Journal    
DOI: 10.1177/0885328210390401     Document Type: Article

References (30)

1. Nesic D., Whiteside R., Brittberg M., Wendt D., Martin I., Mainil-Varlet P.. Cartilage Tissue Engineering for Degenerative Joint Disease. Adv. Drug Delivery Rev.. 2006 ; 2: 300-322 (Pubitemid 44294527)
2. Kuo C.K., Wan-Ju Li., Mauck R.L., Tuan R.S.. Cartilage Tissue Engineering: Its Potential and Uses. Curr. Opin. Rheumatol.. 2006 ; 1: 64-73 (Pubitemid 43740407)
3. Risbud M.V., Sittinger M.. Tissue Engineering: Advances in In Vitro Cartilage Generation. Trends Biotechnol.. 2002 ; 20: 351-356 (Pubitemid 34804424)
4. Kimura T., Yasui N., Ohsawa S., Ono K.. Chondrocytes Embedded in Collagen Gels Maintain Cartilage Phenotype During Long-Term Cultures. Clin. Orthop. Relat. Res.. 1984 ; 186: 231-239 (Pubitemid 14079917)
5. Slims C.D., Butler P.E., Cao Y.L., et al. Tissue Engineered Neocartilage Using Plasma Derived Polymer Substrates and Chondrocytes. Plast. Reconstr. Surg.. 1998 ; 101: 1580-1585 (Pubitemid 28234664)
6. Pavesio A., Abatangelo G., Borrione A., et al. Hyaluronan-Based Scaffolds (Hyalograft C) in the Treatment of Knee Cartilage Defects: Preliminary Clinical Findings. Novartis Found Symp.. 2003 ; 249: 203-217 (Pubitemid 41329052)
7. Freed L.E., Grande D.A., Lingbin Z., Emmanual J., Marquis J.C., Langer R.. Joint Resurfacing Using Allograft Chondrocytes and Synthetic Biodegradable Polymer Scaffolds. J. Biomed. Mater. Res.. 1994 ; 28: 891-899 (Pubitemid 24237852)
8. Ruuskanen M.M., Kallioinen M.J., Kaarela O.I., Laiho J.A., Tormala P.O., Warris T.J.. The Role of Polyglycolic Acid Rods in the Regeneration of Cartilage from Perichondrium in Rabbit. Scand. J. Plast. Reconstr. Surg. Hand Surg.. 1991 ; 25: 15-18
9. Kuo C.K., Ma P.X.. Ionically Crosslinked Alginate Hydrogels as Scaffold for Tissue Engineer: Part 1. Structure, Gelation Rate and Mechanical Properties. Biomaterials. 2001 ; 22: 511-521 (Pubitemid 32015873)
10. Xia W., Liu W., Cui L.. Tissue Engineering of Cartilage with the Use of Chitosan-Gelatin Complex Scaffolds. J. Biomed. Mater. Res. Part B. 2004 ; 71: 373-380 (Pubitemid 39463774)
11. Yamane S., Iwasaki N., Majima T.. Feasibility of Chitosan-Based Hyaluronic Acid Hybrid Biomaterial for a Novel Scaffold in Cartilage Tissue Engineering. Biomaterials. 2005 ; 26: 611-619 (Pubitemid 38988303)
12. Saim A.B., Cao Y., Weng Y., et al. Engineering Autogenous Cartilage in the Shape of a Helix Using an Injectable Hydrogel Scaffold. Laryngoscope. 2000 ; 110: 1694-1697
13. Dorotka R., Bindreiter U., Macfelda K., Windberger U., Nehrer S.. Marrow Stimulation and Chondrocyte Transplantation Using a Collagen Matrix for Cartilage Repair. Osteoarthr. Cartil.. 2005 ; 8: 655-674
14. Schnaper H.W., Kleninman H.K.. Regulation of Cell Function by Extracellular Matrix. Pediatr. Nephrol.. 1993 ; 7: 96-104 (Pubitemid 23045351)
15. Silverman R.P., Passaretti D., Huang W., Randolph M.A., Yaremchuk M.J.. Injectable Tissue-Engineered Cartilage Using a Fibrin Glue Polymer. Plast. Reconstr. Surg.. 1999 ; 103: 1809-1818 (Pubitemid 29251976)
16. Li W.-J., Cooper J.A., Mauck R.L., Tuan R.S.. Fabrication and Characterization of Six Electrospun Poly(α-Hydroxyester)-Based Fibrous Scaffolds for Tissue Engineering Applications. Acta Biomater.. 2006 ; 2: 377-385 (Pubitemid 43840927)
17. Li W.-J., Tuli R., Okafor C., et al. A Three-dimensional Nanofibrous Scaffold for Cartilage Tissue Engineering Using Human Mesenchymal Stem Cells. Biomaterials. 2005 ; 26: 599-609 (Pubitemid 38988302)
18. Li W.-J., Danielson K.G., Alexander P.G., Tuan R.S.. Biological Response of Chondrocytes Cultured in Three-Dimensional Nanofibrous Poly(epsilon- Caprolactone) Scaffolds. J. Biomed. Mater. Res.. 2003 ; 67A: 1105-1114 (Pubitemid 37522722)
19. Subramanan A., Vu D., Larsen G.F., Yilin H.. Preparation and Evaluation of the Electrospun Chitosan/PEO Fibers for Potential Applications in Cartilage Tissue Engineering. J. Biomater. Sci., Polym. Ed.. 2005 ; 16: 861-873 (Pubitemid 40973998)
20. Bhattarai N., Edmondson D., Veiseh O., Matsen F.A., Zhang M.. Electrospun Chitosan-Based Nanofibers and Their Cellular Compatibility. Biomaterials. 2005 ; 26: 6176-6184 (Pubitemid 40826986)
21. Subramanian A., Lin H.Y., Vu D., Larsen G.. Synthesis and Evaluation of Scaffolds Prepared from Chitosan Fibers for Potential Use in Cartilage Tissue Engineering. Biomed. Sci. Instrum.. 2004 ; 40: 117-122 (Pubitemid 38595942)
22. Shield K.J., Beckman M.J., Bowlin G.L., Wayne J.S.. Mechanical Properties and Cellular Proliferation of Electrospun Collagen Type II. Tissue Eng.. 2004 ; 10: 9-10
23. Shin H.J., Lee C.H., Cho I.H., et al. Electrospun PLGA Nanofiber Scaffolds for Articular Cartilage Reconstruction: Mechanical Stability, Degradation and Celluar Responses Under Mechanical Stimulation In Vitro. J. Biomater. Sci., Polym. Ed.. 2006 ; 17: 103-119 (Pubitemid 44069718)
24. Malda J., Woodfield T.B.F., Vloodt F.V.D., et al. The Effect of PEGT/PBT Scaffold Architecture on the Composition of Tissue Engineered Cartilage. Biomaterials. 2005 ; 26: 63-72 (Pubitemid 38759472)
25. Hsu Y.H., Hsieh M.S., Liang Y.C., et al. Production of the Chemoking Eotaxin-1 in Osteoarthritis and its Role in Cartilage Degradation. J. Cell Biochem.. 93: 929-939
26. Wenger K.H., Woods J.A., Holecek A.. Matrix Remodeling Expression in Anulus Cells Subjected to Increased Compressive Load. Spine. 2005 ; 30: 1122-1126 (Pubitemid 40695920)
27. Kisiday J., Jin M., Kurz B.. Self-Assembling Peptide Hydrogel Fosters Chondrocyte Extracellular Matrix Production and Cell Division: Implications for Cartilage Tissue Repair. Proc. Natl. Acad. Sci. U.S.A.. 2002 ; 99: 9996-10001 (Pubitemid 34831161)
28. Hicks D.L., Sage A.B., Schumacher R.L., Watson D.. Growth and Phenotype of Low-Density Nasal Septal Chondrocyte Monolayers. Otolaryngol. Head Neck Surg.. 2005 ; 133: 417-422 (Pubitemid 41247736)
29. Kafienah W., Jakob M., Demarteau O., et al. Three-Dimensional Tissue Engineering of Hyaline Cartilage Chondrocytes. Tissue Eng.. 2002 ; 8: 817-826
30. Kaps C., Frauenschuh S., Endres M., et al. Gene Expression Profiling of Human Articular Cartilage Grafts Generated by Tissue Engineering. Biomaterials. 2006 ; 27: 3617-3630