2009
DOI: 10.1504/ijcat.2009.026664
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Rapid prototyping and manufacturing for tissue engineering scaffolds

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Cited by 61 publications
(37 citation statements)
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“…In some cases, supports are necessary to brace overhangs, which in this case, the system's proprietary software performs the design of the support structures. The model is then sliced and the sliced data is then sent to the additive hardware machine for the production of the final physical part [8,19]. The information flowchart is illustrated below in Fig.…”
Section: Additive Manufacturingmentioning
confidence: 99%
“…In some cases, supports are necessary to brace overhangs, which in this case, the system's proprietary software performs the design of the support structures. The model is then sliced and the sliced data is then sent to the additive hardware machine for the production of the final physical part [8,19]. The information flowchart is illustrated below in Fig.…”
Section: Additive Manufacturingmentioning
confidence: 99%
“…It must serve as an adhesion substrate for cells, allowing cell attachment, proliferation and differentiation; it must deliver and retain cells and growth factors; it has to enable diffusion of cell nutrients and oxygen; and must provide temporary mechanical and biological environment to the newly grown tissue enabling tissue regeneration in an organized way (Billiet et al, 2012;Truscello et al, 2012;Guillotin and Guillemot, 2011;Bártolo et al, 2009a;2009b;Tan and Teoh, 2007;Liu and Czernuszka, 2006;Kreke et al, 2005;Gomes and Reis, 2004;Gross and RodriguezLorenzo, 2004;Leong et al, 2003;Kreeger and Shea, 2002;Hutmacher, 2001;Kim and Mooney, 2001;Langer and Vacanti, 1993). In order to accomplish all this goals, the scaffolds must fulfil several biological and physical requirements ( Table 3) that will affect cell survival, signalling, growth, propagation and reorganization and also cell shape modelling and gene expression (Bártolo et al, 2012;Billiet et al, 2012;Reverchon and Cardea, 2012;Vasanthan et al, 2012;Bártolo et al, 2009a;2009b;Sanz-Herrera et al, 2009;Leong et al, 2008;Chen et al, 1997;Mooney et al, 1992). Table 3 Relationship between scaffold characteristics and the corresponding biological effect (Mahajan, 2005).…”
Section: Figurementioning
confidence: 99%
“…Tissue Engineering is an emerging field that complies different areas of science focusing essentially on the use of cells, biomaterials, computational methods and fabrication processes ( Figure 1) merging principles of areas such as biology, engineering and medicine in order to create biological tissues that are functionally defective or damaged (Eshraghi and Das, 2010;Bártolo et al, 2009a;2009b;Gibson, 2005;Tan et al, 2005;Vozzi et al, 2003;Risbud, 2001). Skalak and Fox (1988), defined Tissue Engineering as the "application of the principles and methods of engineering and life sciences toward the fundamental understanding of structure-function relationships in normal and pathological mammalian tissues and the development of biological substitutes to restore, maintain, or improve tissue and organ functions" (Bártolo et al, 2008).…”
Section: Introductionmentioning
confidence: 99%
“…Thus, the scaffold plays a fundamental role in most tissue engineering strategies as its properties can greatly influence the overall success of new tissue formation. Therefore, the controlled fabrication of scaffold structures is becoming increasingly important in these modern approaches to regenerative medicine (46,47).…”
Section: Biodevices For Tissue Engineeringmentioning
confidence: 99%