A brief review of dispensing-based rapid prototyping techniques in tissue scaffold fabrication: Role of modeling on scaffold properties prediction

Biofabrication

Volumn 1, Issue 3, 2009, Pages

  Li, M G ^a   Tian, X Y ^a   Chen, X B ^a  

^a UNIVERSITY OF SASKATCHEWAN   (Canada)

Author keywords

[No Author keywords available]

Indexed keywords

CELL ATTACHMENTS; CELL DISTRIBUTION; DIFFERENT PROCESS; FUNCTIONAL TISSUE; LAYER-BY-LAYER FABRICATION; MANUFACTURING PROCESS; MECHANICAL CELLS; SCAFFOLD FABRICATION; SCAFFOLD FABRICATION TECHNIQUES; SCAFFOLD PROPERTIES; TISSUE FORMATION; TISSUE SCAFFOLDS;

CONCURRENT ENGINEERING; FABRICATION; JOB ANALYSIS; RAPID PROTOTYPING; TISSUE; TISSUE ENGINEERING;

SCAFFOLDS;

TISSUE SCAFFOLD;

BIOTECHNOLOGY; COMPUTER AIDED DESIGN; INSTRUMENTATION; METHODOLOGY; REVIEW; TISSUE ENGINEERING;

BIOTECHNOLOGY; COMPUTER-AIDED DESIGN; TISSUE ENGINEERING; TISSUE SCAFFOLDS;

EID: 78650266036     PISSN: 17585082     EISSN: 17585090     Source Type: Journal    
DOI: 10.1088/1758-5082/1/3/032001     Document Type: Review

References (91)

1. Fuchs J R, Nasseri B A and Vacanti J P 2001 Tissue engineering: a 21st century solution to surgical reconstruction Ann. Thorac. Surg. 72 577-91
2. Langer R and Vacanti J P 1993 Tissue engineering Science 260 920-6 (Pubitemid 23209960)
3. Niklason L E and Langer R 2001 Prospects for organ and tissue replacement JAMA 285 573-6
4. Stock U A and Vacanti J P 2001 Tissue engineering: current state and prospects Ann. Rev. Med. 52 443-51
5. Whitaker M J, Quirk R A, Howdle S M and Shakesheff K M 2001 Growth factor release from tissue engineering scaffolds J. Pharm. Pharmacol. 53 1427-37
6. Sachlos E and Czernuszka J T 2003 Making tissue engineering scaffolds work. Review: the application of solid freeform fabrication technology to the production of tissue engineering scaffolds Eur. Cell. Mater. 5 29-40
7. Mikos A G, Thorsen A J, Czerwonka L A, Bao Y, Langer R, Winslow D N and Vacanti J P 1994 Preparation and characterization of poly(L-lactic acid) foams Polymer 35 1068-77
8. Schmitz J P and Hollinger J O 1988 A preliminary study of the osteogenic potential of a biodegradable alloplastic- osteoinductive alloimplant Clin. Orthop. Relat. Res. 237 245-55
9. Whang K, Thomas C H, Healy K E and Nuber G 1995 A novel method to fabricate bioabsorbable scaffolds Polymer 36 837-42
10. Hsu Y Y, Gresser J D, Trantolo D J, Lyons C M, Gangadharam P R and Wise D L 1997 Effect of polymer foam morphology and density on kinetics of in vitro controlled release of isoniazid from compressed foam matrices J. Biomed. Mater. Res. 35 107-16
11. Schoof H, Apel J, Heschel I and Rau G 2001 Control of pore structure and size in freeze-dried collagen sponges J. Biomed. Mater. Res. 58 352-7
12. Lo H P and Leong K W 1995 Fabrication of controlled release biodegradable foams by phase separation Tissue Eng. 1 15-28
13. Mooney D J, Baldwin D F, Suh N P, Vacanti J P and Langer R 1996 Novel approach to fabricate porous sponges of poly(D, L-lactic-co-glycolic acid) without the use of organic solvents Biomaterials 17 1417-22
14. Thompson R C, Yaszemski M J, Powers J M and Mikos A G 1995 Fabrication of biodegradable polymer scaffolds to engineering trabecular bone J. Biomater. Sci-Polym. E 7 23-38
15. Cima L G, Vacanti J P, Vacanti C, Inger D, Mooney D J and Langer L 1991 Tissue engineering by cell transplantation using degradable polymer substrates J. Biomech. Eng. 113 143-51
16. Li W J, Laurencin C T, Caterson E J, Tuan R S and Ko F K 2002 Electrospun nanofibrous structure: a novel scaffold for tissue engineering J. Biomed. Mater. Res. 60 613-21
17. Ma Z, Kotaki M, Inai R and Ramakrishna S 2005 Potential of nanofiber matrix as tissue-engineering scaffolds Tissue Eng. 11 101-9
18. Hutmacher D W 2000 Scaffolds in tissue engineering bone and cartilage Biomaterials 21 2529-43
19. Lu L and Mikos A G 1996 The importance of new processing techniques in tissue engineering MRS Bull. 21 28-32
20. Fedorovich N E, Alblas J, de Wijn J R, Hennink W E, Verbout A J and Dhert W J 2007 Hydrogels as extracellular matrices for skeletal tissue engineering: state-of-the-art and novel application in organ printing Tissue Eng. 13 1905-25
21. Hollister S J 2005 Porous scaffold design for tissue engineering Nature Mater. 4 518-24
22. Hutmacher D W, Sittinger M and Risbud M V 2004 Scaffold-based tissue engineering: rationale for computer-aided design and solid free-form fabrication systems Trends Biotechnol. 22 354-62
23. Wang X, Yan Y and Zhang R 2007 Rapid prototyping as a tool for manufacturing bioartificial livers Trends Biotechnol. 25 505-13
24. Yeong W Y, Chua C K, Leong K F and Chandrasekaran M 2004 Rapid prototyping in tissue engineering: challenges and potential Trends Biotechnol. 22 643-52
25. Lee J, Cuddihy M J and Kotov N A 2008 Three-dimensional cell culture matrices: state of the art Tissue Eng. B 14 61-86
26. Peltola S M, Melchels F P, Grijpma D W and Kellomaki M 2008 A review of rapid prototyping techniques for tissue engineering purposes Ann. Med. 40 268-80
27. Zein I, Hutmacher D W, Tan K C and Teoh S H 2002 Fused deposition modeling of novel scaffold architectures for tissue engineering applications Biomaterials 23 1169-85
28. Vozzi G, Flaim C, Ahluwalia A and Bhatia S 2003 Fabrication of PLGA scaffolds using soft lithography and microsyringe deposition Biomaterials 24 2533-40
29. Dhariwala B, Hunt E and Boland T 2004 Rapid prototyping of tissue-engineering constructs, using photopolymerizable hydrogels and stereolithography Tissue Eng. 10 1316-22
30. Varghese D, Deshpande M, Xu T, Kesari P, Ohri S and Boland T 2005 Advances in tissue engineering: cell printing J. Thorac. Cardiovasc. Surg. 129 470-2
31. Boland T, Tao X, Damon B J, Manley B, Kesari P, Jalota S and Bhaduri S 2007 Drop-on-demand printing of cells and materials for designer tissue constructs Mater. Sci. Eng. C 27 372-6
32. Tan K H, Chua C K, Leong K F, Cheah C M, Cheang P, Abu Bakar M S and Cha S W 2003 Scaffold development using selective laser sintering of polyetheretherketone- hydroxyapatite biocomposite blends Biomaterials 24 3115-23
33. Endres M, Hutmacher D W, Salgado A J, Kaps C, Ringe J, Reis R L, Sittinger M, Brandwood A and Schantz J T 2003 Osteogenic induction of human bone marrow-derived mesenchymal progenitor cells in novel synthetic polymer-hydrogel matrices Tissue Eng. 9 689-702
34. Bose S, Darsell J, Kintner M, Hosick H and Bandyopadhyay A 2003 Pore size and pore volume effects on alumina and TCP ceramic scaffolds Mater. Sci. Eng. C 23 479-86
35. Arcaute K, Mann B K and Wicker R B 2006 Stereolithography of three-dimensional bioactive poly(ethylene glycol) constructs with encapsulated cells Ann. Biomed. Eng. 34 1429-41
36. Radulescu D, Dhar S, Young C M, Taylor D W, Trost H J, Hayes D J and Evans G R 2007 Tissue engineering scaffolds for nerve regeneration manufactured by ink-jet technology Mater. Sci. Eng. C 27 534-9
37. Xiong Z, Yan Y N, Zhang R J and Sun L 2001 Fabrication of porous poly(L-lactic acid) scaffolds for bone tissue engineering via precise extrusion Scr. Mater. 45 773-9
38. Vozzi G, Previti A, De Rossi D and Ahluwalia A 2002 Microsyringe-based deposition of two-dimensional and three-dimensional polymer scaffolds with a well-defined geometry for application to tissue engineering Tissue Eng. 8 1089-98
39. Landers R and Mulhaupt R 2000 Desktop manufacturing of complex objects, prototypes and biomedical scaffolds by means of computer-assisted design combined with computer-guided 3D plotting of polymers and reactive oligomers Macromol. Mater. Eng. 282 17-21
40. Ang T H, Sultana F S A, Hutmacher D W, Wong Y S, Fuh J Y H, Mo X M, Loh H T, Burdet E and Teoh S H 2002 Fabrication of 3D chitosan-hydroxyapatite scaffolds using a robotic dispensing system Mater. Sci. Eng. C 20 35-42
41. Landers R, Pfister A, Hubner U, John H, Schmelzeisen R and Mulhaupt R 2002 Fabrication of soft tissue engineering scaffolds by means of rapid prototyping techniques J. Mater. Sci. 37 3107-16
42. Landers R, Hubner U, Schmelzeisen R and Mulhaupt R 2002 Rapid prototyping of scaffolds derived from thermoreversible hydrogels and tailored for applications in tissue engineering Biomaterials 23 4437-47
43. Lam C X F, Mo X F, Teoh S H and Hutmacher D W 2002 Scaffold development using 3D printing with a starch-based polymer Mater. Sci. Eng. C 20 49-56
44. Weinand C, Pomerantseva I, Neville C M, Gupta R, Weinberg E, Madisch I, Shapiro F, Abukawa H, Troulis M J and Vacanti J P 2006 Hydrogel-beta-TCP scaffolds and stem cells for tissue engineering bone Bone 38 555-63
45. Yan Y N, Wang X H, Pan Y Q, Liu H X, Cheng J, Xiong Z, Lin F, Wu R D, Zhang R J and Lu Q P 2005 Fabrication of viable tissue-engineered constructs with 3D cell-assembly technique Biomaterials 26 5864-71
46. Yan Y N, Wang X H, Xiong Z, Liu H X, Liu F, Lin F, Wu R D, Zhang R J and Lu Q P 2005 Direct construction of a three-dimensional structure with cells and hydrogel J. Bioact. Compat. Polym. 20 259-69
47. Wang X H et al 2006 Generation of three-dimensional hepatocyte/gelatin structures with rapid prototyping system Tissue Eng. 12 83-90
48. Liu H X, Yan Y N, Wang X H, Cheng J, Lin F, Xiong Z and Wu R D 2006 Construct hepatic analog by cell-matrix controlled assembly technology Chin. Sci. Bull. 51 1830-35
49. Xu W, Wang X H, Yan Y N, Zheng W, Xiong Z, Lin F, Wu R D and Zhang R J 2007 Rapid prototyping three-dimensional cell/gelatin/fibrinogen constructs for medical regeneration J. Bioact. Compat. Polym. 22 363-77
50. Liu V A and Bhatia S N 2002 Three-dimensional photopatterning of hydrogels containing living cells Biomed. Microdev. 4 257-66
51. Geng L, Feng W, Hutmacher D W, Wong Y, S,Loh H T and Fuh J Y H 2005 Direct writing of chitosan scaffolds using a robotic system Rapid Proto. J. 11 90-97
52. Cohen D L, Malone E, Lipson H and Bonassar L J 2006 Direct freeform fabrication of seeded hydrogels in arbitrary geometries Tissue Eng. 12 1325-35
53. Smith C M, Stone A L, Parkhill R L, Stewart R L, Simpkins M W, Kachurin A M, Warren W L and Williams S K 2004 Three-dimensional bioassembly tool for generating viable tissue-engineered constructs Tissue Eng. 10 1566-76
54. Smith C M, Warren W L, Hoying J B and Williams S K 2005 Utilizing a three-dimensional bioassembly tool to fabricate spatially organized multicellular vascular constructs FASEB J. 19 A160
55. Yan Y N, Xiong Z, Hu Y Y, Wang S G, Zhang R J and Zhang C 2003 Layered manufacturing of tissue engineering scaffolds via multi-nozzle deposition Mater. Lett. 57 2623-6
56. Wang F, Shor L, Darling A, Khalil S, Sun W, Guceri S and Lau A 2004 Precision extruding deposition and characterization of cellular poly-epsilon-caprolactone tissue scaffolds Rapid Proto. J. 10 42-9
57. Shor L, Gueceri S, Gandhi M, Wen X and Sun W 2008 Solid freeform fabrication of polycaprolactone/hydroxyapatite tissue scaffolds Trans. ASME, J. Manuf. Sci. Eng. 130 021018
58. Xiong Z, Yan Y N, Wang S G, Zhang R J and Zhang C 2002 Fabrication of porous scaffolds for bone tissue engineering via low-temperature deposition Scr. Mater. 46 771-6 (Pubitemid 34524227)
59. Therriault D, White S R and Lewis J A 2003 Chaotic mixing in three-dimensional microvascular networks fabricated by direct-write assembly Nature Mater. 2 265-71
60. Chen X B, Schoenau G and Zhang W J 2002 On the flow rate dynamics in time-pressure dispensing processes Trans. ASME, J. Dyn. Syst. Meas. Control 124 693-8
61. Xie B J, Parkhill R L, Warren W L and Smay J E 2006 Direct writing of three-dimensional polymer scaffolds using colloidal gels Adv. Funct. Mater. 16 1685-93
62. Chen X B and Kai J 2004 Modeling of positive-displacement fluid dispensing processes IEEE Trans. Electron. Packag. Manuf. 27 157-63
63. Li M G, Tian X Y and Chen X B 2009 Modeling of flow rate, pore size, and porosity for dispensing-based tissue scaffolds fabrication Trans. ASME, J. Manuf. Sci. Eng. 131 034501
64. Woodfield T B F, Malda J, de Wijn J, Peters F, Riesle J and van Blitterswijk C A 2004 Design of porous scaffolds for cartilage tissue engineering using a three-dimensional fiber-deposition technique Biomaterials 25 4149-61
65. Khalil S and Sun W 2007 Biopolymer deposition for freeform fabrication of hydrogel tissue constructs Mater. Sci. Eng. C 27 469-78
66. Smay J E, Cesarano J and Lewis J A 2002 Colloidal inks for directed assembly of 3-D periodic structures Langmuir 18 5429-37
67. Chen X B, Li M G and Ke H 2008 Modeling of the flow rate in the dispensing-based process for fabricating tissue scaffolds Trans. ASME, J. Manuf. Sci. Eng. 130 021003
68. Barnes H A 1995 A review of the slip (wall depletion) of polymer-solutions, emulsions and particle suspensions in viscometers-its cause, character, and cure J. Non-Newton. Fluid Mech. 56 221-51
69. Chen X B and Ke H 2006 Effects of fluid properties on dispensing processes for electronics packaging IEEE Trans. Electron. Packag. Manuf. 29 75-82
70. Kim J Y, Yoon J J, Park E K, Kim D S, Kim S Y and Cho D W 2009 Cell adhesion and proliferation evaluation of SFF-based biodegradable scaffolds fabricated using a multi-head deposition system Biofabrication 1 1-7
71. Chen X B 2007 Modeling of rotary screw fluid dispensing processes J. Electron. Packag. 129 172-8
72. Xu M J, Gratson G M, Duoss E B, Shepherd R F and Lewis J A 2006 Biomimetic silicification of 3D polyamine-rich scaffolds assembled by direct ink writing Soft Matter 2 205-9
73. Li Q and Lewis J A 2003 Nanoparticle inks for directed assembly of three-dimensional periodic structures Adv. Mater. 15 1639-43
74. Hollister S J, Maddox R D and Taboas J M 2002 Optimal design and fabrication of scaffolds to mimic tissue properties and satisfy biological constraints Biomaterials 23 4095-103
75. Fang Z, Starly B and Sun W 2005 Computer-aided characterization for effective mechanical properties of porous tissue scaffolds Comput.-Aided Des. 37 65-72
76. Estelles J M, Krakovsky I, Hernandez J C R, Piotrowska A M and Pradas M M 2007 Mechanical properties of porous crosslinked poly(ethyl-acrylate) for tissue engineering J. Mater. Sci. 42 8629-35
77. Nair K, Yan K C and Sun W 2008 A computational modeling approach for the characterization of mechanical properties of 3D alginate tissue scaffolds J. Appl. Biomater. Biomech. 6 35-46
78. Bawolin N K, Chen X B and Zhang W J 2007 A method for modeling time-dependant mechanical properties of tissue scaffolds Proc. ICAM (Heilongjiang, China)
79. Bawolin N K, Li M G, Chen X B and Zhang W J 2008 Modeling of time-dependent elastic properties of tissue scaffolds Proc. TERMIS-NA 2008 Annual Conf. & Exposition (CA, USA)
80. Mikos A G, Sarakinos G, Lyman M D, Ingber D E, Vacanti J P and Langer R 1993 Prevascularization of porous biodegradable polymers Biotech. Bioeng. 42 716-23
81. Sampath T K and Reddi A H 1984 Importance of geometry of the extracellular-matrix in endochondral bone differentiation J. Cell Biol. 98 2192-7
82. Khalil S, Nam J and Sun W 2005 Multi-nozzle deposition for construction of 3D biopolymer tissue scaffolds Rapid Proto. J. 11 9-17
83. Boland T, Mironov V, Gutowska V, Roth E A and Markwald R R 2003 Cell and organ printing 2: fusion of cell aggregates in three-dimensional gels Anat Rec. A Discov. Mol. Cell. Evol. Biol. A 272 497-502 (Pubitemid 37238324)
84. Xu T, Jin J, Gregory C, Hickman J J and Boland T 2005 Inkjet printing of viable mammalian cells Biomaterials 26 93-9
85. Mironov V, Boland T, Trusk T, Forgacs G and Markwald R R 2003 Organ printing: computer-aided jet-based 3D tissue engineering Trends Biotech. 21 157-61 (Pubitemid 36397983)
86. Albrecht D R, Tsang V L, Sah R L and Bhatia S N 2005 Photo- and electropatterning of hydrogel-encapsulated living cell arrays Lab. Chip 5 111-8
87. Albrecht D R, Underhill G H, Wassermann T B, Sah R L and Bhatia S N 2006 Probing the role of multicellular organization in three-dimensional microenvironments Nature Meth. 3 369-75
88. Barbee K A 2005 Mechanical cell injury Ann. N. Y. Acad. Sci. 1066 67-84
89. Parkkinen J J, Lammi M J, Inkinen R, Jortikka M, Tammi M, Virtanen I and Helminen H J 1995 Influence of short-term hydrostatic-pressure on organization of stress fibers in cultured chondrocytes J. Orthop. Res. 13 495-502
90. Chang R and Sun W 2008 Effects of dispensing pressure and nozzle diameter on cell survival from solid freeform fabrication-based direct cell writing Tissue Eng. A 14 41-8
91. Grigioni M, Daniele C, Morbiducci U, D'Avenio G, Di Benedetto G and Barbaro V 2004 The power-law mathematical model for blood damage prediction: analytical developments and physical inconsistencies Artif. Org. 28 467-75