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Virtual and Physical Prototyping Volume 3, 2008 - Issue 4: Celebrating the 70th Anniversary of Professor Yongnian Yan: A life dedicated to science and technology
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Original Articles

Mechanical and in vitro evaluations of composite PLDLLA/TCP scaffolds for bone engineering

C.X.F. Lam Division of Bioengineering, National University of Singapore, Singapore
,
R. Olkowski Department of Biophysics and Human Physiology, Medical University of Warsaw, Poland
,
W. Swieszkowski Faculty of Materials Science and Engineering, Warsaw University of Technology, Poland
,
K.C. Tan Temasek Engineering School, Temasek Polytechnic, Singapore
,
I. Gibson Department of Mechanical Engineering, National University of Singapore, Singapore
&
D.W. Hutmacher Division of Regenerative Medicine, IHBI, Queensland University of Technology, Australia
Pages 193-197 | Published online: 22 Dec 2008

Citations (23)

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M. Domingos, F. Chiellini, S. Cometa, E. De Giglio, E. Grillo-Fernandes, P. Bártolo & E. Chiellini. (2010) Evaluation of in vitro degradation of PCL scaffolds fabricated via BioExtrusion. Part 1: Influence of the degradation environment. Virtual and Physical Prototyping 5:2, pages 65-73.
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P. J. Bártolo, C. K. Chua, H. A. Almeida, S. M. Chou & A. S. C. Lim. (2009) Biomanufacturing for tissue engineering: Present and future trends. Virtual and Physical Prototyping 4:4, pages 203-216.
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Articles from other publishers (21)

Krishnanand, Varanjot Singh, Vatsal Mittal, Amar Kumar Branwal, Krishnendra Sharma & Mohammad Taufik. (2023) Extrusion strategies in fused deposition additive manufacturing: A review. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, pages 095440892211507.
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Ali Imran Ansari & Nazir Ahmad Sheikh. (2022) Bone Tissue Regeneration: Rapid Prototyping Technology in Scaffold Design. Journal of The Institution of Engineers (India): Series C 103:5, pages 1303-1324.
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Manabu Tanaka, Makoto Izumiya, Hisao Haniu, Katsuya Ueda, Chuang Ma, Koki Ueshiba, Hirokazu Ideta, Atsushi Sobajima, Shigeharu Uchiyama, Jun Takahashi & Naoto Saito. (2022) Current Methods in the Study of Nanomaterials for Bone Regeneration. Nanomaterials 12:7, pages 1195.
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Camille Perier-Metz, Georg N. Duda & Sara Checa. (2021) Initial mechanical conditions within an optimized bone scaffold do not ensure bone regeneration – an in silico analysis. Biomechanics and Modeling in Mechanobiology 20:5, pages 1723-1731.
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Joaquim Manoel Justino Netto, Henrique Takashi Idogava, Luiz Eduardo Frezzatto Santos, Zilda de Castro Silveira, Pedro Romio & Jorge Lino Alves. (2021) Screw-assisted 3D printing with granulated materials: a systematic review. The International Journal of Advanced Manufacturing Technology 115:9-10, pages 2711-2727.
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Wan Hafizi Wan Ishak, Noor Afizah Rosli & Ishak Ahmad. (2020) Influence of amorphous cellulose on mechanical, thermal, and hydrolytic degradation of poly(lactic acid) biocomposites. Scientific Reports 10:1.
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Joanna Babilotte, Vera Guduric, Damien Le Nihouannen, Adrien Naveau, Jean‐Christophe Fricain & Sylvain Catros. (2019) 3D printed polymer–mineral composite biomaterials for bone tissue engineering: Fabrication and characterization. Journal of Biomedical Materials Research Part B: Applied Biomaterials 107:8, pages 2579-2595.
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S Divakara Shetty & Nagaraja Shetty. (2019) Investigation of mechanical properties and applications of polylactic acids—a review. Materials Research Express 6:11, pages 112002.
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Sarat SingamneniAnthony WarnakulaDawn A. SmithMarie Joo Le Guen. (2019) Biopolymer Alternatives in Pellet Form for 3D Printing by Extrusion. 3D Printing and Additive Manufacturing 6:4, pages 217-226.
Crossref
Johannes Karl Fink. 2018. 3D Industrial Printing with Polymers. 3D Industrial Printing with Polymers 215 302 .
Firdos Alam Khan. 2014. Biotechnology in Medical Sciences. Biotechnology in Medical Sciences 136 157 .
K.-F. Leong, D. Liu & C.-K. Chua. 2014. Comprehensive Materials Processing. Comprehensive Materials Processing 251 264 .
R.F. Pereira & P.J. Bártolo. 2014. Comprehensive Materials Processing. Comprehensive Materials Processing 265 284 .
N. S Sergeeva, I. K Sviridova, G. A Frank, V. A Kirsanova, S. A Akhmedova, Ya. D Shanskiy, L. I Krotova & V. K Popov. (2013) Matrix Properties, Biocompatibility and Osteoplastic Potentialities of Composite Materials Based on Polylactoglycolide and Natural Coral Skeleton Granules of Various Dispersity. N.N. Priorov Journal of Traumatology and Orthopedics 20:4, pages 17-23.
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Hélder M. D. Pereira, Vítor M. Correlo, Joana Silva-Correia, Joaquim M. Oliveira, Rui L. Reis CEng & João Espregueira-Mendes. (2013) Migration of “bioabsorbable” screws in ACL repair. How much do we know? A systematic review. Knee Surgery, Sports Traumatology, Arthroscopy 21:4, pages 986-994.
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Osama A. M. Abdelaal & Saied M. H. Darwish. 2013. Characterization and Development of Biosystems and Biomaterials. Characterization and Development of Biosystems and Biomaterials 33 54 .
Thomas Miramond, Pascal Borget, Caroline Colombeix, Serge Baroth & G. Daculsi. (2012) Composite Bioceramics/Polymer Electrospun Scaffolds for Regenerative Medicine. Key Engineering Materials 529-530, pages 441-446.
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Subha N Rath, Andreas Arkudas, Christopher XF Lam, Radoslaw Olkowski, Elias Polykandroitis, Anna Chróścicka, Justus P Beier, Raymund E Horch, Dietmar W Hutmacher & Ulrich Kneser. (2011) Development of a pre-vascularized 3D scaffold-hydrogel composite graft using an arterio-venous loop for tissue engineering applications. Journal of Biomaterials Applications 27:3, pages 277-289.
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A. Al-Ahmad, C. Schubert, C. Carvalho, Y. Thoman, A. Wittmer, M. Metzger, E. Hellwig, W. Swieszkowski & M. Wiedmann-Al-Ahmad. (2011) Comparison of bacterial adhesion and cellular proliferation on newly developed three-dimensional scaffolds manufactured by rapid prototyping technology. Journal of Biomedical Materials Research Part A 98A:2, pages 303-311.
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Subha N. Rath, Galyna Pryymachuk, Oliver A. Bleiziffer, Christopher X. F. Lam, Andreas Arkudas, Saey T. B. Ho, Justus P. Beier, Raymund E. Horch, Dietmar W. Hutmacher & Ulrich Kneser. (2011) Hyaluronan-based heparin-incorporated hydrogels for generation of axially vascularized bioartificial bone tissues: in?vitro and in?vivo evaluation in a PLDLLA?TCP?PCL-composite system. Journal of Materials Science: Materials in Medicine 22:5, pages 1279-1291.
Crossref
P Pandithevan & G Saravana Kumar. (2009) Finite element analysis of a personalized femoral scaffold with designed microarchitecture. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine 224:7, pages 877-889.
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