A simple method for fabricating 3-D multilayered composite scaffolds

Acta Biomaterialia

Volumn 9, Issue 1, 2013, Pages 4599-4608

  Vaquette, Cédryck ^a   Cooper White, Justin ^a  

^a UNIVERSITY OF QUEENSLAND   (Australia)

Author keywords

Composite; Electrospinning; Multilayered; TIPS

Indexed keywords

BIODEGRADABLE POLYMERS; BIOMECHANICS; ELECTROSPINNING; FABRICATION; PHASE SEPARATION; SCAFFOLDS (BIOLOGY); TENSILE TESTING; TISSUE;

COMPOSITE SCAFFOLDS; ELECTROSPUNS; FIBER DEPOSITION; MULTI-LAYERED; MULTILAYERED COMPOSITES; POLY LACTIC-CO-GLYCOLIC ACID; POLY(LACTIC-CO-GLYCOLIC ACID); SIMPLE METHOD; THERMALLY INDUCED PHASE SEPARATION; THERMALLY-INDUCED PHASE SEPARATION;

POLYCAPROLACTONE;

COMPOSITE SCAFFOLD; DIMETHYL SULFOXIDE; LIQUID NITROGEN; MOLECULAR SCAFFOLD; POLYCAPROLACTONE; POLYGLACTIN; SOLVENT; UNCLASSIFIED DRUG;

ARTICLE; BIODEGRADATION; CELL INFILTRATION; COMPRESSION; ELECTROSPINNING; LEACHING; MECHANICS; MOLECULAR DYNAMICS; NANOFABRICATION; PHASE SEPARATION; PRIORITY JOURNAL; TENSILE STRENGTH; THERMALLY INDUCED PHASE SEPARATION; THICKNESS; TISSUE ENGINEERING;

EID: 84870244984     PISSN: 17427061     EISSN: 18787568     Source Type: Journal    
DOI: 10.1016/j.actbio.2012.08.015     Document Type: Article

References (45)

1. D.H. Reneker, and I. Chun Nanometre diameter fibres of polymer produced by electrospinning Nanotechnology 7 1996 216 223
2. Y.M. Shin, M.M. Hohmann, M.P. Brenner, and G.C. Rutledge Electrospinning: a whipping fluid jet generates submicron polymer fibers Appl Phys Lett 78 2001 1149 1151
3. J.A. Matthews, G.E. Wnek, D.G. Simpson, and G.L. Bowlin Electrospinning of collagen nanofibers Biomacromolecules 3 2002 232 238
4. H.-J. Jin, S.V. Fridrikh, G.C. Rutledge, and D.L. Kaplan Electrospinning Bombyx mori silk with poly(ethylene oxide) Biomacromolecules 3 2002 1233 1239
5. W.-J. Lia, J.A. Cooper, R.L. Mauck, and R.S. Tuan Fabrication and characterization of six electrospun poly(α-hydroxy ester)-based fibrous scaffolds for tissue engineering applications Acta Biomater 2 2006 377 385
6. M.M. Demir, I. Yilgor, E. Yilgor, and B. Erman Electrospinning of polyurethane fibers Polymer 43 2002 3303 3309
7. G.H. Kim, Y.-S. Cho, and W.D. Kim Stability analysis for multi-jets electrospinning process modified with a cylindrical electrode Eur Polym J 42 2006 2031 2038
8. Y. Srivastava, M. Marquez, and T. Thorsen Multijet electrospinning of conducting nanofibers from microfluidic manifolds J Appl Polym Sci 106 2007 3171 3178
9. Jirsak O, Sanetrnik F, Lukas D, Kotek V, Martinova L, Chaloupek J. A method of nanofibres production from a polymer solution using electrostatic spinning and a device for carrying out the method. PCT WO 2005/024101 A1 2005.
10. E. Kostakova, L. Meszaros, and J. Gregr Composite nanofibers produced by modified needleless electrospinning Mater Lett 63 2009 2419 2422
11. O.O. Dosunmu, G.G. Chase, W. Kataphinan, and D.H. Reneker Electrospinning of polymer nanofibres from multiple jets on a porous tubular surface Nanotechnology 17 2006 1123 1127
12. H. Niu, T. Lin, and X. Wang Needleless electrospinning. I. A comparison of cylinder and disk nozzles J Appl Polym Sci 114 2009 3524 3530
13. X. Wang, H. Niu, T. Lin, and X. Wang Needleless electrospinning of nanofibers with a conical wire coil Polym Eng Sci 49 2009 1582 1586
14. A.L. Yarin, and E. Zussman Upward needleless electrospinning of multiple nanofibers Polymer 45 2004 2977 2980
15. Y. Liu, and J.-H. He Bubble electrospinning for mass production of nanofibers Int J Nonlinear Sci Num Simul 8 2007 393 396
16. L. Moroni, R. Schotel, D. Hamann, J.R. de Wijn, and C.A. van Blitterswijk 3D fiber-deposited electrospun integrated scaffolds enhance cartilage tissue formation Adv Funct Mater 18 2008 53 60
17. S. Sahoo, H. Ouyang, J.C.-H. Goh, T.E. Tay, and S.L. Toh Characterization of a novel polymeric scaffold for potential application in tendon/ligament tissue engineering Tissue Eng 12 2006 91 99
18. C. Vaquette, C. Kahn, C. Frochot, C. Nouvel, J.-L. Six, and N. De Isla Aligned poly(l-lactic-co-e-caprolactone) electrospun microfibers and knitted structure: a novel composite scaffold for ligament tissue engineering J Biomed Mater Res A 94 2010 1270 1282
19. C. Vaquette, and J.J. Cooper-White The use of an electrostatic lens to enhance the efficiency of the electrospinning process Cell Tissue Res 347 2012 815 826
20. S. Thandavamoorthy, N. Gopinath, and S.S. Ramkumar Self-assembled honeycomb polyurethane nanofibers J Appl Polym Sci 101 2006 3121 3124
21. C. Vaquette, and J.J. Cooper-White Increasing electrospun scaffold pore size with tailored collectors for improved cell penetration Acta Biomater 7 2011 2544 2557
22. Y. Cao, T.I. Croll, A.J. O'Connor, S.W. Geoffrey, and J.J. Cooper-White Systematic selection of solvents for the fabrication of 3D combined macro- and microporous polymeric scaffolds for soft tissue engineering J Biomater Sci: Polym Ed 17 2006 369 402
23. V. Guarino, A. Guaccio, D. Guarnieri, P.A. Netti, and L. Ambrosio Binary system thermodynamics to control pore architecture of PCL scaffold via temperature-driven phase separation process J Biomater Appl 27 2012 241 254
24. A.S. Rowlands, S.A. Lim, D. Martin, and J.J. Cooper-White Polyurethane/poly(lactic-co-glycolic) acid composite scaffolds fabricated by thermally induced phase separation Biomaterials 28 2007 2109 2121
25. T.G. Kim, H.J. Chung, and T.G. Park Macroporous and nanofibrous hyaluronic acid/collagen hybrid scaffold fabricated by concurrent electrospinning and deposition/leaching out of salt particles Acta Biomater 4 2009 1611 1619
26. C.A. Bonino, K.E. Menko, S.I. Jeong, K. MD, E. Alsberg, and K. SA Three-dimensional electrospun alginate nanofiber mats via tailored charge repulsions Small 8 2012 1928 1936
27. S.J. Kim, D.H. Jang, W.H. Park, and B.-M. Min Fabrication and characterization of 3-dimensional PLGA nanofiber/microfiber composite scaffolds Polymer 51 2010 1320 1327
28. A.C. Aufderheide, and K.A. Athanasiou Mechanical stimulation toward tissue engineering of the knee meniscus Ann Biomed Eng 32 2004 1161 1174
29. I.K. Shim, M.R. Jung, K.H. Kim, Y.J. Seol, Y.J. Park, and W.H. Park Novel three-dimensional scaffolds of poly(l-lactic acid) microfibers using electrospinning and mechanical expansion: fabrication and bone regeneration J Biomed Mater Res B Appl Biomater 95 2010 150 160
30. B.A. Blakeney, A. Tambralli, J.M. Anderson, A. Andukuri, D.-J. Lim, and D.R. Dean Cell infiltration and growth in a low density, uncompressed three-dimensional electrospun nanofibrous scaffold Biomaterials 32 2011 1583 1590
31. L. Moroni, D. Hamann, L. Paoluzzi, J. Pieper, J.R. de Wijn, and C.A. van Blitterswijk Regenerating articular tissue by converging technologies PLoS One 3 2008 e3032
32. J.P. Spalazzi, E. Dagher, S.B. Doty, X.E. Guo, S.A. Rodeo, and H.H. Lu In vivo evaluation of a multiphased scaffold designed for orthopaedic interface tissue engineering and soft tissue-to-bone integration J Biomed Mater Res A 86 2008 1 12
33. J.P. Spalazzi, S.B. Doty, K.L. Moffat, W.N. Levine, and H.H. Lu Development of controlled matrix heterogeneity on a triphasic scaffold for orthopedic interface tissue engineering Tissue Eng 12 2006 3497 3508
34. C. Vaquette, W. Fan, Y. Xiao, S. Hamlet, D.W. Hutmacher, and S. Ivanovski A biphasic scaffold design combined with cell sheet technology for simultaneous regeneration of alveolar bone/periodontal ligament complex Biomaterials 33 2012 5560 5573
35. S. Srouji, E.T. Kizhner, E.E. Suss-Tobi, E.E. Livne, and E.E. Zussman 3-D Nanofibrous electrospun multilayered construct is an alternative ECM mimicking scaffold J Mater Sci Mater Med 19 2008 1249 1255
36. B. Inanç, Y.E. Arslan, S. Seker, A.E. Elçin, and Y.M. Elçin Periodontal ligament cellular structures engineered with electrospun poly(dl-lactide-co-glycolide) nanofibrous membrane scaffolds J Biomed Mater Res A 90 2009 186 195
37. J.K. Hong, and S.V. Madihally 3D scaffold of electrosprayed fibers with large pore size for tissue regeneration Acta Biomater 6 2010 4734 4742
38. S.J. Eichhorn, and W.W. Sampson Statistical geometry of pores and statistics of porous nanofibrous assemblies J R Soc Interface 2 2005 309 318
39. J.L. Lowery, N. Datta, and G.C. Rutledge Effect of fiber diameter, pore size and seeding method on growth of human dermal fibroblasts in electrospun poly(ε-caprolactone) fibrous mats Biomaterials 31 2010 491 504
40. Q.P. Pham, U. Sharma, and A.G. Mikos Electrospun poly(ε- caprolactone) microfiber and multilayer nanofiber/microfiber scaffolds: characterization of scaffolds and measurement of cellular infiltration Biomacromolecules 7 2006 2796 2805
41. J. Nam, Y. Huang, S. Agarwal, and J. Lanutti Improved cellular infiltration in electrospun fiber via engineered porosity Tissue Eng 13 2007 2249 2257
42. B.M. Baker, A.O. Gee, R.B. Metter, A.S. Nathan, R.A. Marklein, and J.A. Burdick The potential to improve cell infiltration in composite fiber-aligned electrospun scaffolds by the selective removal of sacrificial fibers Biomaterials 29 2008 2348 2358
43. A.K. Ekaputra, G.D. Prestwich, S.M. Cool, and D.W. Hutmacher Combining electrospun scaffolds with electrosprayed hydrogels leads to three dimensional cellularization of hybrid construct Biomacromolecules 9 2008 2097 2103
44. X. Zhu, W. Cui, X. Li, and Y. Jin Electrospun fibrous mats with high porosity as potential scaffolds for skin tissue engineering Biomacromolecules 9 2008 1795 1801
45. J.L. Ifkovits, K. Wu, R.L. Mauck, and J.A. Burdick The influence of fibrous elastomer structure and porosity on matrix organization PLoS One 5 2010 e15717