Biocompatible alginate/nano bioactive glass ceramic composite scaffolds for periodontal tissue regeneration

Carbohydrate Polymers

Volumn 87, Issue 1, 2012, Pages 274-283

  Srinivasan, Sowmya ^a   Jayasree, R ^a   Chennazhi, K P ^a   Nair, S V ^a   Jayakumar, R ^a  

^a AMRITA INSTITUTE OF MEDICAL SCIENCES   (India)

Author keywords

Alginate; Alkaline phosphatase; Bioglass; Nanocomposite; Periodontal regeneration; Tissue engineering

Indexed keywords

AFM; ALGINATE SCAFFOLDS; ALKALINE PHOSPHATASE; ALKALINE PHOSPHATASE ACTIVITY; COMPOSITE SCAFFOLDS; CYTOCOMPATIBILITY; FTIR; HUMAN PERIODONTAL LIGAMENT; IN-VITRO; OSTEOSARCOMA; PERIODONTAL REGENERATION; PERIODONTAL TISSUE; PROTEIN ADSORPTION; SUPPORTING STRUCTURE; XRD;

ADSORPTION; ALGINATE; BIOACTIVE GLASS; BIODEGRADATION; BIOMINERALIZATION; CELL CULTURE; DEGRADATION; GLASS CERAMICS; NANOCOMPOSITES; OCEAN HABITATS; PHOSPHATASES; TISSUE;

SCAFFOLDS (BIOLOGY);

EID: 80054769541     PISSN: 01448617     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.carbpol.2011.07.058     Document Type: Article

References (58)

1. M.E. Aichelmann-Reidy, and M.A. Reynolds Predictability of clinical outcomes following regenerative therapy in intrabony defects Journal of Periodontology 79 2008 387 393
2. A.L. Andrade, P. Valerio, A.M. Goes, M.F. Leite, and R.Z. Domingues Influence of morphology on in vitro compatibility of bioactive glasses Journal of Non-Crystalline Solids 352 2006 3508 3511
3. E.K. Basdra, and G. Komposch Osteoblast-like properties of human periodontal ligament cells: an in vitro analysis European Journal of Orthodontics 19 1997 615 621
4. N.S. Binulal, M. Deepthy, N. Selvamurugan, K.T. Shalumon, S. Suja, and U. Mony Role of nanofibrous poly(caprolactone) scaffolds in human mesenchymal stem cell attachment and spreading for in bone tissue engineering-response to osteogenic regulators Tissue Engineering: Part A 16 2010 393 404
5. A.R. Boccaccini, M. Erol, W.J. Stark, D. Mohn, Z. Hong, and J.F. Mano Polymer/bioactive glass nanocomposites for biomedical applications: A review Composites Science and Technology 70 13 2010 1764 1776
6. C.A. Bonino, M.D. Krebs, C.D. Saquing, S.I. Jeong, K.L. Shearer, and E. Alsberg Electrospinning alginate-based nanofibers: from blends to crosslinked low molecular weight alginate-only systems Carbohydrate Polymers 85 2011 111 119
7. D.D. Bosshardt, and A. Sculean Does periodontal tissue regeneration really work? Periodontology 2000 51 2009 208 219
8. W. Cao, and L.L. Hench Bioactive materials Ceramics International 22 1996 493 507
9. C. Chai, B.B. Nissan, S. Pyke, and L. Evans Sol-gel derived hydroxylapatite coatings for biomedical applications Materials and Manufacturing Processes 10 1995 205 216
10. F.M. Chen, and Y. Jin Periodontal tissue engineering and regeneration: current approaches and expanding opportunities Tissue Engineering Part B: Reviews 16 2010 219 255
11. J. Clover, and M. Gowen Are MG-63 and HOS TE85 human osteosarcoma cell lines representative models of the osteoblastic phenotype? Bone 15 1994 585 591
12. E. Donzelli, A. Salvade, P. Mimo, M. Vigano, M. Morrone, and R. Papagna Mesenchymal stem cells cultured on a collagen scaffold: in vitro osteogenic differentiation Archives of Oral Biology 52 2007 64 73
13. H. Ehrlich Biominerals, biological materials of marine origin invertebrates 2010 Springer Verlag Dordrecht (Part I) p. 569
14. H. Ehrlich, S. Heinemann, C. Heinemann, P. Simon, V.V. Bazhenov, and N.P. Shapkin Nanostructural organization of naturally occurring composites. Part I. Silica-collagen-based biocomposites Journal of Nanomaterials 2008 10.1155/2008/623838 Article ID 623838
15. H. Ehrlich, D. Janussen, P. Simon, V.V. Bazhenov, N.P. Shapkin, and C. Erler Nanostructural organization of naturally occurring composites. Part II. Silica-chitin-based biocomposites Journal of Nanomaterials 2008 10.1155/2008/670235 Article ID 670235
16. H. Ehrlich, P. Simon, W. Carrillo-Cabrera, V.V. Bazhenov, J.P. Botting, and M. Ilan Insights into chemistry of biological materials: Newly discovered silica-aragonite-chitin biocomposites in demosponges Chemistry of Materials 22 2010 1462 1471
17. H. Ehrlich, R. Deutzmann, E. Brunner, E. Cappellini, H. Koon, and C. Solazzo Mineralization of the metre-long biosilica structures of glass sponges is templated on hydroxylated collagen Nature Chemistry 2 2010 1084 1088
18. Ehrlich, H., Brunner, E., Simon, P., Bazhenov, V. V., Botting, J. P., Tabachnick, K. R., et al. Calcite reinforced silica-silica joints in the biocomposite skeleton of deep-sea glass sponges. Advanced Functional Materials, in press.
19. G. Gheysen, P. Ducheyne, L.L. Hench, and P. Meester Bioglass composites: a potential material for dental application Biomaterials 4 1983 81 84
20. S. Heinemann, C. Heinemann, H. Ehrlich, M. Meyer, H. Baltzer, and H. Worch A novel biomimetic hybrid material made of silicified collagen: perspectives for bone replacement Advanced Engineering Materials 2007 9 2007 1061 1068
21. S. Heinemann, H. Ehrlich, C. Knieb, and T. Hanke Biomimetically inspired hybrid materials based on silicified collagen International Journal of Materials Research 98 2007 603 608
22. L.L. Hench, R.J. Splinter, W.C. Allen, and T.K. Greenlee Bonding mechanisms at the interface of ceramic prosthetic materials Journal of Biomedical Materials Research 2 1972 117 141
23. L.L. Hench Genetic design of bioactive glass Journal of European Ceramic Society 29 2009 1257 1265
24. Z. Hong, R.L. Reis, and J.F. Mano Preparation and in vitro characterization of scaffolds of poly(l-lactic acid) containing bioactive glass ceramic nanoparticles Acta Biomaterialia 4 2008 1297 1306
25. S.F. Hulbert, F.A. Young, R.S. Mathews, J.J. Klawitter, C.D. Talbert, and F.H. Stelling Potential of ceramic materials as permanently implantable skeletal prostheses Journal of Biomedical Materials Research 4 1970 433 456
26. N.C. Hunt, A.M. Smith, U. Gbureck, R.M. Shelton, and L.M. Grover Encapsulation of fibroblasts causes accelerated alginate hydrogel degradation Acta Biomaterialia 6 2010 3649 3656
27. S. Ivanovski Periodontal regeneration Australian Dental Journal 54 2009 118 128
28. V. Karageorgiou, and D. Kaplan Porosity of 3D biomaterial scaffolds and osteogenesis Biomaterials 26 2005 5474 5491
29. T. Karring, J. Lindhe, and P. Cortellini Regenerative periodontal therapy J. Lindhe, Clinical periodontology and implant dentistry 1998 Munksgaard Copenhagen 597 638
30. S.K. Kazy, P. Sar, S.P. Singh, A.K. Sen, and S.F. D'Souza Extracellular polysaccharides of a copper-sensitive and a copper-resistant Pseudomonas aeruginosa strain: synthesis, chemical nature and copper binding World Journal of Microbiology & Biotechnology 18 2002 583 588
31. B.S. Kim, I.K. Park, T. Hoshiba, H.L. Jiang, Y.J. Choi, and T. Akaikef Design of artificial extracellular matrices for tissue engineering Progress in Polymer Science 36 2011 238 268
32. T. Kokubo, and H. Takadama How useful is SBF in predicting in vivo bone activity? Biomaterials 27 2006 2907 2915
33. T. Kokubo, H.M. Kim, and M. Kawashita Novel bioactive materials with different mechanical properties Biomaterials 24 2003 2161 2175
34. A. Liu, Z. Hong, X. Zhuang, X. Chen, Y. Cui, and Y. Liu Surface modification of bioactive glass nanoparticles and the mechanical and biological properties of poly(l-lactide) composites Acta Biomaterialia 4 2008 1005 1015
35. J. Liuyun, L. Yubao, and L. Chengdong A novel composite membrane of chitosan-carboxymethyl cellulose polyelectrolyte complex membrane filled with nano-hydroxyapatite I. Preparation and properties Journal of Materials Science: Materials in Medicine 20 2009 1645 1652
36. K.D. Lobel, and L.L. Hench In vitro protein interactions with a bioactive gel-glass Journal of Sol-Gel Science and Technology 7 1996 69 76
37. K. Madhumathi, N.S. Binulal, H. Nagahama, H. Tamura, K.T. Shalumon, and N. Selvamurugan Preparation and characterization of novel β-chitin- hydroxyapatite composite membranes for tissue engineering applications International Journal of Biological Macromolecules 44 2009 1 5
38. K. Madhumathi, K.T. Shalumon, V.V. Divya Rani, H. Tamura, T. Furuike, and N. Selvamurugan Wet chemical synthesis of chitosan hydrogel-hydroxyapatite composite membranes for tissue engineering applications International Journal of Biological Macromolecules 45 2009 12 15
39. A.H. Melcher On the repair potential of periodontal tissues Journal of Periodontology 47 1976 256 260
40. S.K. Misra, T. Ansari, D. Mohn, S.P. Valappil, T.J. Brunner, and W.J. Stark Effect of nanoparticulate bioactive glass particles on bioactivity and cytocompatibility of poly(3-hydroxybutyrate) composites Journal of The Royal Society Interface 7 2010 453 465
41. N. Mohan, and P.D. Nair Novel porous, polysaccharide scaffolds for tissue engineering applications Trends in Biomaterials and Artificial Organs 18 2005 219 224
42. S.K. Nandi, B. Kundu, S. Datta, D.K. De, and D. Basu The repair of segmental bone defects with porous bioglass: an experimental study in goat Research in Veterinary Science 86 2009 162 173
43. S. Nyman, J. Lindhe, T. Karring, and H. Rylander New attachment following surgical treatment of human periodontal disease Journal of Clinical Periodontology 9 1982 290 296
44. M. Peter, P.T. Sudheesh Kumar, N.S. Binulal, S.V. Nair, H. Tamura, and R. Jayakumar Development of novel α-chitin/nanobioactive glass ceramic composite scaffolds for tissue engineering applications Carbohydrate Polymers 78 2009 926 931
45. M. Peter, N.S. Binulal, S.V. Nair, N. Selvamurugan, H. Tamura, and R. Jayakumar Novel biodegradable chitosan-gelatin/nano-bioactive glass ceramic composite scaffolds for alveolar bone tissue engineering Chemical Engineering Journal 158 2010 353 361
46. N. Price, S.P. Bendall, C. Frondoza, R.H. Jinnah, and D.S. Hungerford Human osteoblast-like cells (MG63) proliferate on a bioactive glass surface Journal of Biomedical Materials Research 37 1997 394 400
47. M.A. Reynolds, M.E. Aichelmann-Reidy, and G.L. Branch-Mays Regeneration of periodontal tissue: bone replacement grafts Dental clinics of North America 54 2010 55 71
48. K. Rezwan, Q. Chen, J.J. Blaker, and A.R. Boccaccini Biodegradable and bioactive porous polymer/inorganic composite scaffolds for bone tissue engineering Biomaterials 27 2006 3413 3431
49. J. Roman, S. Padilla, and M. Vallet-Regý Sol-gel glasses as precursors of bioactive glass ceramics Chemistry of Materials 15 2003 798 806
50. S. Sowmya, P.T. Sudheesh Kumar, K.P. Chennazhi, S.V. Nair, H. Tamura, and R. Jayakumar Biocompatible β-chitin hydrogel/nanobioactive glass ceramic nanocomposite scaffolds for periodontal bone regeneration Trends in Biomaterials and Artificial Organs 25 2011 1 11
51. P.T. Sudheesh Kumar, S. Sowmya, L. Vinoth-Kumar, H. Tamura, S.V. Nair, and R. Jayakumar β-Chitin hydrogel/nano hydroxyapatite composite scaffolds for tissue engineering applications Carbohydrate Polymers 85 2011 584 591
52. H. Tan, and G.M. Kacey Injectable biodegradable hydrogels for tissue engineering applications Materials 3 2010 1746 1767
53. P. Valerio, M.M. Pereira, A.M. Goes, and M.F. Leite The effect of ionic products from bioactive glass dissolution on osteoblast proliferation and collagen production Biomaterials 25 2004 2941 2948
54. J.M. Walker The bicinchoninic acid (BCA) assay for protein quantitation J.M. Walker, Basic protein and peptide protocols 1994 Humana Press Inc. Totowa NJ 5 8
55. L. Wang, R.M. Shelton, P.R. Cooper, M. Lawson, J.T. Triffitt, and J.E. Barralet Evaluation of sodium alginate for bone marrow cell tissue engineering Biomaterials 24 2003 3475 3481
56. 13C-NMR spectroscopic study Biopolymers 33 1993 703 711
57. W. Xia, and J. Chang Preparation and characterization of nano-bioactive-glasses (NBG) by a quick alkali-mediated sol-gel method Materials Letters 61 2007 3251 3253
58. I.D. Xynos, A.J. Edgar, L.D.K. Buttery, L.L. Hench, and J.M. Polak Ionic products of bioactive glass dissolution increase proliferation of human osteoblasts and induce insulin-like growth factor II mRNA expression and protein synthesis Biochemical and Biophysical Research Communications 276 2000 461 465