Commenced in January 2007
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Edition: International
Paper Count: 33122
Fabrication of Tissue Engineering Scaffolds Using Rapid Prototyping Techniques
Authors: Osama A. Abdelaal, Saied M. Darwish
Abstract:
Rapid prototyping (RP) techniques are a group of advanced manufacturing processes that can produce custom made objects directly from computer data such as Computer Aided Design (CAD), Computed Tomography (CT) and Magnetic Resonance Imaging (MRI) data. Using RP fabrication techniques, constructs with controllable and complex internal architecture with appropriate mechanical properties can be achieved. One of the attractive and promising utilization of RP techniques is related to tissue engineering (TE) scaffold fabrication. Tissue engineering scaffold is a 3D construction that acts as a template for tissue regeneration. Although several conventional techniques such as solvent casting and gas forming are utilized in scaffold fabrication; these processes show poor interconnectivity and uncontrollable porosity of the produced scaffolds. So, RP techniques become the best alternative fabrication methods of TE scaffolds. This paper reviews the current state of the art in the area of tissue engineering scaffolds fabrication using advanced RP processes, as well as the current limitations and future trends in scaffold fabrication RP techniques.Keywords: Biomanufacturing, Rapid prototyping, Solid FreeForm Fabrication, Scaffold Fabrication, Tissue Engineering
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1058029
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[1] L. Moroni , J. R. De Wing and C. A. Van Blitterswijk, J. Biomater. Sci. Polymer Edn, 19, 543 (2008)..
[2] C. M. Agrawal and R.B. Ray, J Biomed Mater Res, 55, 141 (2001).
[3] S. Das, and S. J. Hollister, Encyclopedia of Materials: Science and Technology,1 (2003).
[4] T.C. Lim, C.P. Bang, K.S. Chian and K.F. Leong, Virtual and Physical Prototyping, 3, 25 (2008).
[5] B. Bidanda and P. J. Bártolo , In Virtual and Rapid Manufacturing : Advanced Research in Virtual and Rapid Prototyping, p.158, B. Bidanda and P. J. Bártolo, Eds.( Springer, 2008).
[6] T. B. F. Woodfield, J. Malda, J. de Wijn, F. Péters, J. Riesle and C. A. van Blitterswijk, J. Biomaterials, 25, 4149(2004).
[7] R. Landers, A. Pfister, U. H├╝bner, H. John, R. Schmelzeisen and R. M├╝lhaupy, Journal Of Materials Science, 37, 3107 (2002).
[8] F. Wang, L. Shor, A. Darling,S. Khalil, W. Sun, S. Güçeri and A. Lau, Rapid Prototyping Journal, 10 , 42 (2004) .
[9] D. Espalin, K. Arcaute, D. Rodriguez and F. Medina, Rapid Prototyping Journal, 16, 164 (2010).
[10] H.-J Yen, C.-S Tseng, S.-H Hsu and C.-L Tsai, Biomed Microdevices, 11, 615 (2009).
[11] B.C. Tellis, J.A. Szivek, C.L. Bliss, D.S. Margolis, R.K. Vaidyanathan and P. Calvert, Materials Science and Engineering, C 28, 171 (2008).
[12] C.P. Geffre, D.S. Margolis, J.T. Ruth, D.W. DeYoung, B.C. Tellis and J. A. Szivek, J Biomed Mater Res Part A, 91A, 795 (2009).
[13] J.P. Li, J.R. de Wijn, C.A. van Blitterswijk and K. de Groot, J Biomed Mater Res Part A, 92A, 33 (2010).
[14] T.B.F. Woodfield, M. Guggenheim, B. von Rechenberg, J. Riesle, C.A. van Blitterswijk and V. Wedler, Cell Prolif., 42, 485 (2009).
[15] L. Shor, S. Güçeri, X. Wen, M. Gandhi and W. Sun, Biomaterials, 28, 2591(2007).
[16] E.D. Yildirim, R. Besunder, S. Guceri, F. Allen and W. Sun, Virtual and Physical Prototyping, 3, 199 (2008).
[17] Z. Xiong, Y. Yan, S. Wang, R. Zhang and C. Zhang, Scripta Materialia, 46, 771 (2002).
[18] J. Li, L. Zhang, S. Lv, S. Li, N. Wang and Z. Zhang, Journal of Biotechnology, 151, 87 (2011).
[19] A.A. Mäkitie, Y. Yan, X. Wang, Z. Xiong, K-S. Paloheimo, J. Tuomi, M. Paloheimo, J. Salo and R. Renkonen, Journal of Bioactive and Compatible Polymers, 24, 75 (2009).
[20] C.K. Chua, K.F. Leong, and K.H. Tan,In Biomedical Materials, Vol.1,p.493, R. Narayan, Ed. (Springer Science+Business Media, LLC, 233 Spring Street, New York, NY 10013, USA, 2009).
[21] S.A. Park, S.H. Lee and W.D. Kim, Bioprocess Biosyst Eng, 34, 505 (2010).
[22] J.M. Sobral, S.G. Caridade, R.A. Sousa, J.F. Mano and R.L. Reis, Acta Biomaterialia, 7, 1009 (2011).
[23] S. Park, G.H. Kim,Y.C. Jeon, Y.H. Koh and W.D. Kim, J Mater Sci: Mater Med, 20, 229(2009).
[24] P. Yilgor, R.A. Sousa, R.L. Reis, N. Hasirci and Vasif Hasirci, Macromol. Symp., 269, 92 (2008).
[25] J. G. Son, G. H. Kim, Journal of Biomaterials Science, 20, 2089 (2009).
[26] G.H. Kim, J.G. Son, Appl Phys A, 94,781 (2009).
[27] L. Jun-Hee, P. Su-A, P. KoEun, K. Jae-Hyun, K. Kyung-Shik, L. Jihye and K. WanDoo, Chinese Sci Bull, 55, 94 (2010).
[28] J.T. Daoud, M.S. Petropavlovskaia, J.M. Patapas, C.E. Degrandpré, R.W. DiRaddo, L.Rosenberg and M. Tabrizian, Biomaterials, 32, 1536 (2011).
[29] L. Ye, X. Zeng , H. Li and Y. Ai, J Mater Sci: Mater Med , 21, 753(2010) .
[30] A.L. Oliveira, S.A. Costa, R.A. Sousa and R.L. Reis, Acta Biomaterialia, 5,1626 (2009).
[31] K. Haberstroh, K. Ritter, J. Kuschnierz, K-H. Bormann, C. Kaps, C. Carvalho, R M├╝lhaupt, M. Sittinger and N-C. Gellrich, J Biomed Mater Res Part B: Appl Biomater, 93B, 520 (2010).
[32] D.J. Hoelzle, A.G. Alleyne and A.J.W. Johnson, Acta Biomaterialia, 4, 897 (2008).
[33] P. Miranda, E. Saiz, K. Gryn and A.P. Tomsia, Acta Biomaterialia, 2, 457 (2006).
[34] F.J. Martinez-Vazquez, F.H. Perera, P. Miranda, A. Pajares and F. Guiberteau, Acta Biomaterialia, 6, 4361 (2010).
[35] P. Miranda, A. Pajares and F. Guiberteau, Acta Biomaterialia, 4, 1715 (2008).
[36] J.Y. Kim and D-W. Cho, Microsyst Technol, 15, 843 (2009).
[37] J.Y. Kim and D-W. Cho, Microelectronic Engineering, 86, 1447 (2009).
[38] C.X.F. Lam, R. Olkowski, W. Swieszkowski, K.C. Tan, I. Gibson and D.W. Hutmacher, Virtual and Physical Prototyping, 3, 193( 2008).
[39] M.T. Arafat, C.X.F. Lam, A.K. Ekaputra,S.Y. Wong,X. Li and I. Gibson, Acta Biomaterialia,7,809 (2011).
[40] M. Domingos, D. Dinucci, S. Cometa, M. Alderighi, P.J. Bartolo and F. Chiellini, International Journal of Biomaterials, 2009, 1(2009).
[41] M. Centola, A. Rainer, C. Spadaccio, S. De Porcellinis, J. A. Genovese and M. Trombetta, Biofabrication, 2, 1 (2010).
[42] A. Owida, R. Chen, S. Patel, Y. Morsi and X. Mo, Rapid Prototyping Journal, 17 , 37(2011).
[43] G.H. Kim, J.G. Son, S. Park and W.D. Kim, Macromol. Rapid Commun. 29, 1577 (2008).
[44] H. Lee, M. Yeo, S.H. Ahn, D-O. Kang, C.H. Jang,H. Lee, G-M. Park and G. H. Kim, J Biomed Mater Res Part B: Appl Biomater, 97B, 263(2011).
[45] L. Moroni, R. Schotel, D. Hamann, J.R. de Wijn, and C. A. van Blitterswijk, Adv. Funct. Mater, 18, 53 (2008).
[46] T.C. Lim, C.P. Bang, K.S. Chian and K.F. Leong, Virtual and Physical Prototyping, 3, 25 (2008).
[47] C.B. Pham, K.F. Leong, T.C. Lim and K.S. Chian, Rapid Prototyping Journal, 14 , 246 (2008).
[48] L. Lu, Q. Zhang, D. Wootton, P.I. Lelkes and J. Zhou, Rapid Prototyping Journal, 16, 365 (2010).
[49] S-J. Heo, S-E. Kim, J. Wei, Y-T. Hyun, H-S Yun, D-H. Kim, J.W. Shin and J-W. Shin, J Biomed Mater Res Part A, 89A, 108 (2009).
[50] A.J. Salgado, O.P. Coutinho and R.L. Reis, Macromol. Biosci., 4, 743 (2004).
[51] S. Kumar and J.-P. Kruth, Materials and Design, 31, 850 (2010).
[52] A. Woesz, In Virtual Prototyping & Bio Manufacturing in Medical Applications, p.171, B. Bidanda and P. J. Bártolo , Eds. (Springer, 2008).
[53] R. Detsch, S. Schaefer, U. Deisinger, G. Ziegler, H. Seitz and B. Leukers, J Biomater Appl.,00, 1 (2010).
[54] Y. Shanjani, J. N. A. De Croos, R.M. Pilliar, R. A. Kandel and E.Toyserkani, J Biomed Mater Res Part B: Appl Biomater, 93B,510(2010).
[55] U. Klammert, E. Vorndran,T. Reuther, F. A. M├╝ller, K. Zorn and U. Gbureck, J Mater Sci: Mater Med , 21 ,2947 (2010).
[56] Z. Ge, L.Wang, B. Heng, X-F. Tian, K. Lu, V.T.W. Fan, J. Yeo, T. Cao and E. Tan, J Biomater Appl, 23,533 (2009).
[57] P.H. Warnke, H. Seitz, F. Warnke, S.T. Becker, S. Sivananthan, E. Sherry,Q. Liu, J. Wiltfang and T. Douglas, J Biomed Mater Res Part B: Appl Biomater, 93B, 212( 2010).
[58] S.T. Becker, H. Bolte, O. Krapf, H. Seitz, T. Douglas, S. Sivananthan, J. Wiltfang, E. Sherry and P.H. Warnke, Oral Oncology, 45, e181 (2009).
[59] U. Klammert, T. Reuther , C. Jahn, B. Kraski, A.C. K├╝bler a and U. Gbureck, Acta Biomaterialia, 5, 727 (2009).
[60] R. Lowmunkong, T.Sohmura, Y. Suzuki, S. Matsuya and K. Ishikawa, J Biomed Mater Res Part B: Appl Biomater, 90B, 531(2009).
[61] U. Gbureck, T.Hölzel, I. Biermann, J.E. Barralet and L.M. Grover, J Mater Sci: Mater Med ,19, 1559 (2008).
[62] F.E. Wiria, J.Y.M. Shyan, P.N. Lim, F.G.C. Wen, J.F. Yeo and T. Cao, Materials and Design, 31, S101 (2010) .
[63] P. J. Bártolo, C. K. Chua, H. A. Almeida, S. M. Chou and A. S. C. Lim, Virtual and Physical Prototyping, 4, 203 (2009).
[64] C.H. Park, H.F. Rios, Q. Jin, M.E. Bland, C.L. Flanagan, S.J. Hollister and W.V. Giannobile, Biomaterials, 31, 5945 (2010).
[65] A. Safari, S. C. Danforth, M. Allahverdi and N. Venkataraman,In Encyclopedia of Materials: Science and Technology, p.7991, K. H. Jurgen Buschow, Robert W. Cahn, Merton C. Flemings and Bernard Ilschner, Eds., (Elsevier, Oxford, 2001).
[66] N. Sudarmadji, J.Y. Tan, K.F. Leong, C.K. Chua and Y.T. Loh, Acta Biomaterialia, 7, 530 (2011).
[67] W.Y. Yeong, N. Sudarmadji, H.Y. Yu, C.K. Chua, K.F. Leong, S.S. Venkatraman, Y.C.F. Boey and L.P. Tan, Acta Biomaterialia, 6, 2028 (2010).
[68] S. Eshraghi and S. Das, Acta Biomaterialia, 6, 2467 (2010).
[69] S. Lohfeld, M. A. Tyndyk, S. Cahill, N. Flaherty, V. Barron and P. E. McHugh, J. Biomedical Science and Engineering, 3, 138 (2010).
[70] S. Eosoly, D.Brabazon, S. Lohfeld and L. Looney, Acta Biomaterialia, 6, 2511 (2010).
[71] G.V. Salmoria, P. Klauss, R.A. Paggi, L.A. Kanis and A. Lago, Polymer Testing, 28, 648 (2009).
[72] B. Duan, M. Wang, W.Y. Zhou and W.L. Cheung, Applied Surface Science, 255, 529 (2008).
[73] B. Duan and M. Wang, J. R. Soc. Interface, 7, S615 (2010).
[74] B. Duan and M. Wang, Polymer Degradation and Stability, 95, 1655 (2010).
[75] B. Duan, M. Wang, Z.Y. Li and W.W. Lu, Proceedings of the Tissue Engineering and Regenerative Medicine International Society - EU Meeting, p. 459, (Galway, Ireland,2010).
[76] B. Duan, M. Wang, W.Y. Zhou, W.L. Cheung, Z.Y. Li and W.W. Lu, Acta Biomaterialia, 6, 4495 (2010).
[77] B. Duan, W.L. Cheung and M. Wang, Biofabrication, 3,1 (2011).
[78] B. Duan, M. Wang, Z.Y. Li, W.C. Chan1, and W.W. Lu, Front. Mater. Sci., 5, 57 (2011).
[79] W.Y. Zhou, S.H. Lee, M. Wang, W.L. Cheung and W.Y. Ip, J Mater Sci: Mater Med, 19, 2535 (2008).
[80] L. Liu-lan, S. Ying-ying, Z. Jia-feng and F. Ming-lun, Shanghai Univ (Engl Ed), 13, 349 (2009).
[81] R. Bibb, In Medical modelling: The application of advanced design and development techniques in medicine, p.72, (Woodhead Publishing Limited, Cambridge, England,2006).
[82] T.M. Seck, F.P.W. Melchels, J. Feijen and D.W. Grijpma, Journal of Controlled Release, 148, 34 (2010).
[83] F.P.W. Melchels, K. Bertoldi, R. Gabbrielli, A.H. Velders, J. Feijen and D.W. Grijpma, Biomaterials, 31, 6909 (2010).
[84] F.P.W. Melchels, A.M.C. Barradas, C.A. van Blitterswijk, J. de Boer, J. Feijen and D.W. Grijpma, Acta Biomaterialia, 6, 4208 (2010).
[85] F.P.W. Melchels, J. Feijen and D.W. Grijpma, Biomaterials, 30, 3801 (2009).
[86] K. Arcaute, B. Mann and R. Wicker, Acta Biomaterialia, 6, 1047 (2010).
[87] J.W. Lee, G. Ahn , J.Y.Kim and D-W. Cho, J Mater Sci: Mater Med , 21, 3195 (2010) .
[88] J.W. Lee, J.H. Jung, D.S. Kim, G. Lim and D-W. Cho, Microelectronic Engineering, 86, 1451 (2009).
[89] J.W. Lee, P.X. Lan, B. Kim, G. Lim and D-W. Cho, J Biomed Mater Res Part B: Appl Biomater, 87B, 1 (2008).
[90] J.W. Lee, G. Ahn, D.S. Kim and D-W. Cho, Microelectronic Engineering, 86, 1465 (2009).
[91] J.W. Choi, R. Wicker, S-H. Lee, K-H. Choi, C-S and Ha, I. Chung, Journal of Materials Processing Technology, 209, 5494 (2009).
[92] L.E. Murr , S.A. Quinones, S.M. Gaytan, M.I. Lopez, A. Rodela, E.Y. Martinez, D.H. Hernandez, E. Martinez, F. Medina and R.B. Wicker, J. Mech. Behavior Biomed. Mater., 2, 20(2009).
[93] G.P. Dinda, L. Song and J. Mazumder, Metallurgical and Materials Transactions A, 39A, 2914(2008).
[94] X. Li, C. Wang, W. Zhang and Y. Li, Rapid Prototyping Journal, 16 ,44 (2010).
[95] X. Li, C-T. Wang, W-G. Zhang, and Y-C. Li, Proc. IMechE Part H: J. Engineering in Medicine, 223, 173(2009).
[96] X. Li, C. Wang, W. Zhang and Y. Li, Materials Letters, 63, 403 (2009).
[97] J. Parthasarathy, B. Starly, S. Raman and A. Christensen, J. Mech. Behavior Biomed. Mater., 3, 249 ( 2010 ).
[98] J. Parthasarathy, B. Starly and S. Raman, Journal of Manufacturing Processes(2011), Article in Press.
[99] P. Heinl, L. Mu├╝ller, C. Ko├╝rner, R. F. Singer and F. A. Mu├╝ller, Acta Biomaterialia, 4, 1536 (2008).
[100] C.M. Haslauer, J.C. Springer, O.L.A. Harrysson, E.G. Loboa, N.A. Monteiro Riviere and D.J. Marcellin-Little, Medical Engineering & Physics, 32, 645 (2010).
[101] S. Ponader, C. von Wilmowsky, M. Widenmayer, R. Lutz, P.r Heinl, C. Körner, R.F. Singer, E. Nkenke, F.W. Neukam and K.A. Schlegel, J Biomed Mater Res Part A, 92A,56 (2010).
[102] O.L.A. Harrysson , O. Cansizoglu, D.J. Marcellin-Little, D.R. Cormier and H.A. West, Materials Science and Engineering C, 28,366 (2008).
[103] M. Lindner, S. Hoeges, W. Meiners, K. Wissenbach, R.Smeets, R. Telle, R.Poprawe and H.Fischer, J Biomed Mater Res Part A,00A,1(2011).
[104] Y. Wang, Y. Shen, Z. Wang, J. Yang, N. Liu and W. Huang, Materials Letters, 64 , 674 (2010).
[105] K. Alvarez and H. Nakajima, Materials, 2, 790 (2009).