Additive manufacturing-assisted scaffold-based tissue engineering

Innovative Developments in Virtual and Physical Prototyping - Proceedings of the 5th International Conference on Advanced Research and Rapid Prototyping

Volumn , Issue , 2012, Pages 13-21

  Chua, C K ^a   Liu, M J J ^a   Chou, S M ^a  

^a NANYANG TECHNOLOGICAL UNIVERSITY   (Singapore)

Author keywords

[No Author keywords available]

Indexed keywords

ADDITIVE MANUFACTURING; AUTOLOGOUS TISSUE; BIOPRINTING; CELL MIGRATION; CELL PROLIFERATION RATE; COMPLEX TISSUES; CRANIOFACIAL SURGERY; ESSENTIAL NUTRIENTS; GROWTH FACTOR; LIVING CELL; MEDICAL COMPLICATIONS; ORGAN PRINTING; SCAFFOLD-BASED TISSUE; TE SOLUTION; TISSUE ENGINEERED CONSTRUCTS; TISSUE SCAFFOLDS; TISSUE SUBSTITUTE;

CELL PROLIFERATION; HISTOLOGY; INDUSTRIAL RESEARCH; INNOVATION; MANUFACTURE; RAPID PROTOTYPING; TISSUE;

SCAFFOLDS (BIOLOGY);

EID: 84856711537     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: None     Document Type: Conference Paper

References (80)

1. Ang, K. C., Leong, K. F., Chua, C. K. & Chandrasekaran, M. (2006) Investigation of the mechanical properties and porosity relationships in fused deposition modelingfabricated porous structures. Rapid Prototyping Journal, 12(2), 100-105.
2. Ang, K.C., Leong, K.F., Chua, C.K. & Chandrasekaran, M. (2007) Compressive properties and degradability of poly(ε-caprolatone)/ hydroxyapatite composites under accelerated hydrolytic degradation. Journal of Biomedical Materials Research-Part A, 80(3), 655-660. (Pubitemid 46239077)
3. Bartolo, P. J., Chua, C. K., Almeida, H. A., Chou, S. M. & Lim, A. S. C. (2009) Biomanufacturing for tissue engineering: Present and future trends. Virtual and Physical Prototyping, 4(4), 203-216.
4. Cao, T., Ho, K. H. &Teoh, S. H. (2003) Scaffold Design and in Vitro Study of Osteochondral Coculture in a Three-Dimensional Porous Polycaprolactone Scaffold Fabricated by Fused Deposition Modeling.Tissue Engineering, 9 (supplement 1), 103-112.
5. Censi, R., Schuurman, W., Malda, J., di Dato, G., Burgisser, P.E., Dhert, W. J. A., van Nostrum, C. F., di Martino, P., Vermonden, T. & Hennink, W. E. (2011) A Printable Photopolymerizable Thermosensitive p(HPMAm-lactate)-PEG Hydrogel for Tissue Engineering. Advanced Functional Materials, 21(10), 1833-1842.
6. Cheah, C.M., Leong, K.F., Chua, C.K., Low, K.H. & Quek, H.S. (2002) Characterization of microfeatures in selective laser sintered drug delivery devices. Proc Institution Mechanical Engineers, Part H: Journal of Engineering in Medicine, 216(6), 369-383. (Pubitemid 35459404)
7. Cheah, C. M., Chua, C. K., Leong, K. F., Cheong, C. H. & Naing, M. W. (2004) Automatic algorithm for generating complex polyhedral scaffold structures for tissue engineering. Tissue Engineering, 10(3-4), 595-610.
8. Chua, C. K., Leong, K. F., Cheah, C. M. & Chua, S. W. (2003a) Development of a tissue engineering scaffold structure library for rapid prototyping. Part 1: Investigation and classification. International Journal of Advanced Manufacturing Technology, 21(4), 291-301.
9. Chua, C. K., Leong, K. F., Cheah, C. M. & Chua, S. W. (2003b) Development of a tissue engineering scaffold structure library for rapid prototyping. Part 2: Parametric library and assembly program. International Journal of Advanced Manufacturing Technology, 21(4), 302-312.
10. Chua, C. K., Leong, K. F., Tan, K. H., Wiria, F. E. & Cheah, C. M. (2004) Development of tissue scaffolds using selective laser sintering of polyvinyl alcohol/hydroxyapatite biocomposite for craniofacial and joint defects. Journal of Materials Science-Materials in Medicine, 15(10), 1113-1121. (Pubitemid 39491716)
11. Virtual Modelling and Rapid Manufacturing - Advanced Research in Virtual and Rapid Prototyping
12. Cohen, D. L., Malone, E., Lipson, H. & Bonassar, L. J. (2006) Direct Freeform Fabrication of Seeded Hydrogels in Arbitrary Geometries. Tissue Engineering, 12(5), 1325-1335. (Pubitemid 44024502)
13. Comesaña, R., Lusquiños, F., del Val, J., López-Álvarez, M., Quintero, F., Riveiro, A., Boutinguiza, M., de Carlos, A., Jones, J. R., Hill, R. G.&Pou, J. (2011)Three-dimensional bioactive glass implants fabricated by rapid prototyping based on CO2 laser cladding. Acta Biomaterialia, 7(9), 3476-3487.
14. Cooper, G. M., Miller, E. D., DeCesare, G. E., Usas, A., Lensie, E. L., Bykowski, M. R., Huard, J., Weiss, L. E., Losee, J. E.&Campbell, P. G. (2009) Inkjet-Based Biopatterning of Bone Morphogenetic Protein-2 to Spatially Control Calvarial Bone Formation. Tissue Engineering Part A, 16(5), 1749-1759.
15. Dhariwala, B., Hunt, E. & Boland, T. (2004) Rapid Prototyping of Tissue-Engineering Constructs, Using Photopolymerizable Hydrogels and Stereolithography. Tissue Engineering, 10(9-10), 1316-1322. (Pubitemid 39557836)
16. Duan, B. & et al. (2011) Optimized fabrication of Ca-P/PHBV nanocomposite scaffolds via selective laser sintering for bone tissue engineering. Biofabrication, 3(1), 1-13.
17. Duan, B., Wang, M., Zhou, W. Y., Cheung, W. L., Li, Z. Y. & Lu, W. W. (2010) Three-dimensional nanocomposite scaffolds fabricated via selective laser sintering for bone tissue engineering.Acta Biomaterialia, 6(12), 4495-4505.
18. Fierz, F. C., Beckmann, F., Huser, M., Irsen, S. H., Leukers, B., Witte, F., Degistirici, Ö., Andronache, A., Thie, M. & Müller, B. (2008) The morphology of anisotropic 3D-printed hydroxyapatite scaffolds. Biomaterials, 29(28), 3799-3806.
19. Ge, Z., Tian, X., Heng, B. C., Fan, V., Yeo, J. F. & Cao, T. (2009) Histological evaluation of osteogenesis of 3D-printed poly-lactic-co-glycolic acid (PLGA) scaffolds in a rabbit model. Biomedical Materials, 4(2), 1-7.
20. Guillotin, B., Souquet, A., Catros, S., Duocastella, M., Pippenger, B., Bellance, S., Bareille, R., Rémy, M., Bordenave, L., Amédé e, J. & Guillemot, F. (2010) Laser assisted bioprinting of engineered tissue with high cell density and microscale organization. Biomaterials, 31(28), 7250-7256.
21. Hoque, M. E., San, W. Y., Wei, F., Li, S., Huang, M.-H., Vert, M. & Hutmacher, D. W. (2009) Processing of Polycaprolactone and Polycaprolactone- Based Copolymers into 3D Scaffolds, and Their Cellular Responses. Tissue Engineering Part A, 15(10), 3013-3024.
22. Jeong, C. G. & Hollister, S. J. (2010) A comparison of the influence of material on in vitro cartilage tissue engineering with PCL, PGS, and POC 3D scaffold architecture seeded with chondrocytes. Biomaterials, 31(15), 4304-4312.
23. Kim, K., Lee, C. H., Kim, B. K. &Mao, J. J. (2010) Anatomically ShapedTooth and Periodontal Regeneration by Cell Homing. Journal of Dental Research, 89(8), 842-847.
24. Lam, C.X.F., Mo, X.M., Teoh, S.H. & Hutmacher, D.W. (2002) Scaffold development using 3D printing with a starch-based polymer. Materials Science & Engineering C-Biomimetic and Supramolecular Systems, 20(1-2), 49-56. (Pubitemid 34718477)
25. Lee, K.-W.,Wang, S., Dadsetan, M.,Yaszemski, M. J.&Lu, L. (2010) Enhanced Cell Ingrowth and Proliferation through Three-Dimensional Nanocomposite Scaffolds with Controlled Pore Structures. Biomacromolecules, 11(3), 682-689.
26. Lee, M., Dunn, J. C.Y. &Wu, B. M. (2005) Scaffold fabrication by indirect three-dimensional printing. Biomaterials, 26(20), 4281-4289. (Pubitemid 40430856)
27. Lee, M.,Wu, B.M. & Dunn, J. C.Y. (2008) Effect of scaffold architecture and pore size on smooth muscle cell growth. Journal of Biomedical Materials Research Part A, 87A(4), 1010-1016.
28. Leong, K.F., Phua, K.K.S., Chua, C.K., Du, Z.H. & Teo, K.O.M.(2001), Fabrication of porous polymeric matrix drug delivery devices using the selective laser sintering technique. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine 215(2), 191-201. (Pubitemid 34448618)
29. Leong, K.F., Cheah, C.M. & Chua, C.K. (2003) Solid freeform fabrication of three-dimensional scaffolds for engineering replacement tissues and organs. Biomaterials, 24(13), 2363-2378. (Pubitemid 36434056)
30. Leong, K.F., Chua, C.K., Gui,W.S.&Verani (2006) Building porous biopolymeric microstructures for controlled drug delivery devices using selective laser sintering. International Journal of Advanced Manufacturing Technology, 31(5-6), 483-489.
31. Leong, K.F., Chua, C.K., Sudarmadji, N. & Yeong, W.Y. (2008) Engineering functionally graded tissue engineering scaffolds. Journal of the Mechanical Behavior of Biomedical Materials, 1, 140-152. (Pubitemid 351217067)
32. Li, X., Li, D., Lu, B. & Wang, C. (2008) Fabrication of bioceramic scaffolds with pre-designed internal architecture by gel casting and indirect stereolithography techniques. Journal of Porous Materials, 15(6), 667-671.
33. Liu, M. J. J., Chou, S. M. & Chua, C. K. 2010a. Development of silk fibroin scaffolds using an indirect rapid prototyping technology. In International Conference on Cellular& Molecular Bioengineering. Singapore.
34. Liu, M. J. J., Chou, S. M. & Chua, C. K. 2010b. Proteinbased scaffold fabrication using Polyjet technology. In 4th International Conference PMI. Belgium.
35. Liu, M. J. J., Chou, S. M. & Chua, C. K., Tay, C.M.B., Ng, B.K., 2011. The study of micro- and macro-structural features of silk fibroin scaffolds. ISOB 2011 - Proceedings of the 1st International Symposium ISOB 2011 - Proceedings of the 1st International Symposium on Bioengineering, 2011, 330-338
36. Liu,Y., Zhang, L., Zhou, G., Li, Q., Liu,W.,Yu, Z., Luo, X., Jiang, T., Zhang,W. & Cao,Y. (2009) In vitro engineering of human ear-shaped cartilage assisted with CAD/CAM technology. Biomaterials, 31(8), 2176-2183.
37. Low, K.H., Leong, K.F., Chua, C.K., Du, Z.H.&Cheah, C.M. (2001) Characterization of SLS parts for drug delivery devices. Rapid Prototyping Journal, 7(5), 262-267. (Pubitemid 33067971)
38. Maher, P. S., Keatch, R. P. & Donnelly, K. (2010) Characterisation of rapid prototyping techniques for studies in cell behaviour. Rapid Prototyping Journal, 16(2), 116-123.
39. Malda, J.,Woodfield, T. B. F., van der Vloodt, F.,Wilson, C., Martens, D. E., Tramper, J., van Blitterswijk, C. A. & Riesle, J. (2005) The effect of PEGT/PBT scaffold architecture on the composition of tissue engineered cartilage. Biomaterials, 26(1), 63-72. (Pubitemid 38759472)
40. Melchels, F. P.W., Barradas, A. M. C., van Blitterswijk, C. A., de Boer, J., Feijen, J.&Grijpma,D.W. (2010) Effects of the architecture of tissue engineering scaffolds on cell seeding and culturing. Acta Biomaterialia, 6(11), 4208-4217.
41. Melchels, F. P. W., Feijen, J. & Grijpma, D. W. (2009) A poly(d,l-lactide) resin for the preparation of tissue engineering scaffolds by stereolithography. Biomaterials, 30(23-24), 3801-3809.
42. Mikos,A. G., Herring, S.W., Ochareon, P., Elisseeff, J., Lu, H. H., Kandel, R., Schoen, F. J.,Toner, M., Mooney,D., Atala, A., Dyke, M. E. V., Kaplan, D. & Vunjak-Novakovic, G. (2006) Engineering ComplexTissues.Tissue Engineering, 12(12), 3307-3339. (Pubitemid 46037158)
43. Miller, E. D., Li, K., Kanade, T., Weiss, L. E., Walker, L.M. & Campbell, P. G. (2011) Spatially directed guidance of stem cell population migration by immobilized patterns of growth factors. Biomaterials, 32(11), 2775-2785.
44. Mironov, V., Boland, T., Trusk, T., Forgacs, G. & Markwald, R. R. (2003) Organ printing: computer-aided jet-based 3D tissue engineering. Trends in Biotechnology, 21(4), 157-161. (Pubitemid 36397983)
45. Mironov, V. & et al. (2009) Biofabrication: a 21st century manufacturing paradigm. Biofabrication, 1(2), 1-16.
46. Mondrinos, M. J., Dembzynski, R., Lu, L., Byrapogu,V. K. C., Wootton, D. M., Lelkes, P. I. & Zhou, J. (2006) Porogenbased solid freeform fabrication of polycaprolactonecalcium phosphate scaffolds for tissue engineering. Biomaterials, 27(25), 4399-4408.
47. Moroni, L., Hendriks, J. A. A., Schotel, R., de Wijn, J. R. & van Blitterswijk, C. A. (2007) Design of Biphasic Polymeric 3-Dimensional Fiber Deposited Scaffolds for Cartilage Tissue Engineering Applications. Tissue Engineering, 13(2), 361-371.
48. Naing, M. W., Chua, C. K., Leong, K. F. & Wang,Y. (2005) Fabrication of customized scaffolds using computer-aided design and rapid prototyping techniques. Rapid Prototyping Journal, 11(4), 249-259. (Pubitemid 41118361)
49. Ramanath, H. S., Chandrasekaran, M., Chua, C. K., Leong, K. F.&Shah, K.D. (2007) Modeling of extrusion behavior of biopolymer and composites in fused deposition modeling. Key Engineering Materials, 334-335, 1241-1244.
50. Ramanath, H. S., Chandrasekaran, M., Chua, C. K., Leong, K. F. & Shah, K. D. (2008) Melt flow behaviour of poly-ε-caprolactone in fused deposition modeling. Journal of Materials Science - Materials in Medicine, 19(7), 2541-2550. (Pubitemid 351678716)
51. Sachlos, E. & Czernuszka, J.T. (2003a) MakingTissue Engineering ScaffoldsWork. Review: The application of solid freeform fabrication technology to the production of tissue engineering scaffolds European Cells and Materials, 5, 29-39.
52. Sachlos, E., Reis, N., Ainsley, C., Derby, B. & Czernuszka, J. T. (2003b) Novel collagen scaffolds with predefined internal morphology made by solid freeform fabrication. Biomaterials, 24(8), 1487-1497. (Pubitemid 36069115)
53. Saunders, R. E., Gough, J. E. & Derby, B. (2008) Delivery of human fibroblast cells by piezoelectric drop-on-demand inkjet printing. Biomaterials, 29(2), 193-203. (Pubitemid 350016297)
54. Schumacher, M., Deisinger, U., Detsch, R. & Ziegler, G. (2010) Indirect rapid prototyping of biphasic calcium phosphate scaffolds as bone substitutes: influence of phase composition, macroporosity and pore geometry on mechanical properties. Journal of Materials Science: Materials in Medicine, 21(12), 3119-3127.
55. Seitz, H., Rieder,W., Irsen, S., Leukers, B. &Tille, C. (2005) Three-dimensional printing of porous ceramic scaffolds for bone tissue engineering. Journal of Biomedical Materials Research Part B: Applied Biomaterials, 74B(2), 782-788. (Pubitemid 41076949)
56. Shao, X., Goh, J. C. H., Hutmacher, D. W., Lee, E. H. & Zigang, G. (2006) Repair of Large Articular Osteochondral Defects Using Hybrid Scaffolds and Bone Marrow-Derived Mesenchymal Stem Cells in a Rabbit Model. Tissue Engineering, 12(6), 1539-1551. (Pubitemid 44174788)
57. Shuai, C. & et al. (2011) Structure and properties of nanohydroxypatite scaffolds for bone tissue engineering with a selective laser sintering system. Nanotechnology, 22(28), 285703.
58. Simpson, R. L., Wiria, F. E., Amis, A. A., Chua, C. K., Leong, K. F., Hansen, U. N., Chandrasekaran, M. & Lee, M. W. (2008) Development of a 95/5 poly(L-lactideco-glycolide)/hydroxylapatite and β-tricalcium phosphate scaffold as bone replacement material via selective laser sintering. Journal of Biomedical Materials Research Part B: Applied Biomaterials, 84B(1), 17-25.
59. Smith, C. M., Stone, A. L., Parkhill, R. L., Stewart, R. L., Simpkins, M. W., Kachurin, A. M., Warren, W. L. & Williams, S. K. (2004) Three-Dimensional BioAssembly Tool for GeneratingViableTissue-Engineered Constructs. Tissue Engineering, 10(9-10), 1566-1576. (Pubitemid 39557860)
60. Sudarmadji,N.,Tan, J.Y., Leong, K. F., Chua, C. K.&Loh,Y. T. (2011) Investigation of the mechanical properties and porosity relationships in selective laser-sintered polyhedral for functionally graded scaffolds. Acta Biomaterialia, 7(2), 530-537.
61. Taboas, J. M., Maddox, R.D., Krebsbach, P. H.&Hollister, S. J. (2003) Indirect solid free form fabrication of local and global porous, biomimetic and composite 3D polymerceramic scaffolds. Biomaterials, 24(1), 181-194. (Pubitemid 35303368)
62. Innovative Developments in Design and Manufacturing - Advanced Research in Virtual and Rapid Prototyping
63. Tan, K. H., Chua, C. K., Leong, K. F., Cheah, C. M., Cheang, P., Abu Bakar, M. S. & Cha, S. W. (2003) Scaffold development using selective laser sintering of polyetheretherketone-hydroxyapatite biocomposite blends. Biomaterials, 24(18), 3115-3123. (Pubitemid 36944942)
64. Tan, K. H., Chua, C. K., Leong, K. F., Cheah, C. M., Gui, W. S., Tan, W. S. & Wiria, F. E. (2005) Selective laser sintering of biocompatible polymers for applications in tissue engineering. Bio-Medical Materials and Engineering, 15(1-2), 113-124. (Pubitemid 40916706)
65. Too, M. H., Leong, K. F., Chua, C. K., Du, Z. H., Yang, S. F., Cheah, C. M. & Ho, S. L. (2002) Investigation of 3D Non-Random Porous Structures by Fused Deposition Modeling. The International Journal of Advanced Manufacturing Technology, 19(3), 217-223. (Pubitemid 34268719)
66. Warren, S. M., Fong, K.D., Chen, C. M., Loboa, E. G.,Cowan, C. M., Lorenz, H. P. & Longaker, M. T. (2003) Tools and Techniques for Craniofacial Tissue Engineering. Tissue Engineering, 9(2), 187-200. (Pubitemid 36944169)
67. Wilson, C., van Blitterswijk, C., Verbout, A., Dhert,W. & de Bruijn, J. (2011) Scaffolds with a standardized macroarchitecture fabricated from several calcium phosphate ceramics using an indirect rapid prototyping technique. Journal of Materials Science: Materials in Medicine, 22(1), 97-105.
68. Wiria, F. E., Chua, C. K., Leong, K. F., Quah, Z. Y., Chandrasekaran, M.&Lee, M.W. (2008) Improved biocomposite development of poly(vinyl alcohol) and hydroxyapatite for tissue engineering scaffold fabrication using selective laser sintering. Journal of Materials Science-Materials in Medicine, 19(3), 989-996. (Pubitemid 351337476)
69. Wiria, F. E., Leong, K. F., Chua, C. K. & Liu, Y. (2007) Poly-e-caprolactone/hydroxyapatite for tissue engineering scaffold fabrication via selective laser sintering. Acta Biomaterialia, 3(1), 1-12. (Pubitemid 44804297)
70. Xu,T., Jin, J., Gregory, C., Hickman, J. J. & Boland,T. (2005) Inkjet printing of viable mammalian cells. Biomaterials, 26(1), 93-99. (Pubitemid 38759475)
71. Yang, S. F., Leong, K. F., Du, Z. H. & Chua, C. K. (2001) The design of scaffolds for use in tissue engineering. Part 1. Traditional factors. Tissue Engineering, 7(6), 679-689.
72. Yang, S. F., Leong, K. F., Du, Z. H. & Chua, C. K. (2002) The design of scaffolds for use in tissue engineering. Part II. Rapid prototyping techniques. Tissue Engineering, 8(1), 1-11.
73. Yen, H.-J., Hsu, S.-H., Tseng, C.-S., Huang, J.-P.&Tsai, C.-L. (2009) Fabrication of Precision Scaffolds Using Liquid- Frozen Deposition Manufacturing for Cartilage Tissue Engineering. Tissue Engineering Part A, 15(5), 965-975.
74. Yeong, W. Y., Chua, C. K., Leong, K. F., Chandrasekaran, M. & Lee, M. W. (2006) Indirect fabrication of collagen scaffold based on inkjet printing technique. Rapid Prototyping Journal, 12(4), 229-237. (Pubitemid 44156099)
75. Yeong, W. Y., Chua, C. K., Leong, K. F. & Chandrasekaran, M. (2004) Rapid prototyping in tissue engineering: challenges and potential. Trends in Biotechnology, 22(12), 643-652. (Pubitemid 39473215)
76. Yeong, W. Y., Chua, C. K., Leong, K. F., Chandrasekaran, M. & Lee, M. W. (2007) Comparison of drying methods in the fabrication of collagen scaffold via indirect rapid prototyping. Journal of Biomedical Materials Research Part B: Applied Biomaterials, 82B(1), 260-266. (Pubitemid 47015377)
77. Yeong,W.Y., Sudarmadji, N.,Yu, H.Y., Chua, C. K., Leong, K. F., Venkatraman, S. S., Boey, Y. C. F. & Tan, L. P. (2010) Porous polycaprolactone scaffold for cardiac tissue engineering fabricated by selective laser sintering. Acta Biomaterialia, 6(6), 2028-2034.
78. Zeltinger, J., Sherwood, J. K., Graham, D. A., Müeller, R. & Griffith, L. G. (2001) Effect of pore size and void fraction on cellular adhesion, proliferation, and matrix deposition. Tissue Engineering, 7(5), 557-572. (Pubitemid 33032379)
79. Zeng, W., Lin, F., Shi, T., Zhang, R., Nian, Y., Ruan, J. & Zhou, T. (2008) Fused deposition modeling of an auricle framework for microtia reconstruction based on CT images. Rapid Prototyping Journal, 14(5), 280-284.
80. Zuk, P. A. (2008) Tissue Engineering Craniofacial Defects With Adult Stem Cells? Are We Ready Yet? Pediatric Research, 63(5), 478-486. (Pubitemid 351572216)