11/22/2023 0 Comments Electrospinning in tissue engineering![]() ![]() ![]() Reignier J and Huneault MA(2006) Preparation of interconnected poly(ε-caprolactone) porous scaffolds by a combination of polymer and salt particulate leaching Polymer, 47, 4703–4717Īlmeida HA, Bartolo PJ (2009) Computer simulation and optimisation of tissue engineering scaffolds: mechanical and vascular behaviour Proceedings of the 9th Biennial Conference on Engineering Systems Design and Analysis 2 173–180 Rowlands AS, Lim SA et al (2007) Polyurethane/poly(lactic-co-glycolic) acid composite scaffolds fabricated by thermally induced phase separation Biomaterials 28 2109–2121 Nagai Y, Unsworth LD et al (2005) Slow release of molecules in self-assembling peptide nanofiber scaffold Journal of Controlled Release 115, 18–25 Melchels FPW, Feijena J et al (2009) A poly(d,l-lactide) resin for the preparation of tissue engineering scaffolds by stereolithography Biomaterials30, 3801–3809įierz FC, Beckmann F et al (2008),The morphology of anisotropic 3D-printed hydroxyapatite scaffolds Biomaterials 29, 3799–3806. Williams JM, Adewunmib A, et al (2005) Bone tissue engineering using polycaprolactone scaffolds fabricated via selective laser sintering Biomaterials 264817–4827 Tellis BC, Sziveka JA et al (2008) Trabecular scaffolds created using micro CT guided fused deposition modeling Materials Science and Engineering: C 28, 171–178 Lewis JA and Gratson GM (2004) Direct writing in three dimensions Materials Today7, 32–39 ![]() Liu C, Xia Z et al (2007) Design and Development of Three-Dimensional Scaffolds for Tissue Engineering Chemical Engineering Research and Design 85, 1051–1064 ![]() Liao S, Chana CK et al, (2008) Stem cells and biomimetic materials strategies for tissue engineering Materials Science and Engineering: C 28, 1189–1202 Materials Science and Engineering: C, 27: 504–509 Lannutti J, Reneker D et al (2007) Electrospinning for tissue engineering scaffolds. Sin YM, Hohman MM et al (2001) 'Experimental Characterization of Electrospinning the Electrically Forced Jet and Instabilities'Polymer 42 9955–9967 Reneker DH, Yarin AL (2000) Bending instability of electrically charged liquid jets of polymer solutions in electrospinning J Appl Phys 87 4532–4547 (1964) Disintegration of Water Drops in an Electric Field Proc. (2007) Electrospinning: a fascinating method for the preparation of ultrathin fibers. This process is experimental and the keywords may be updated as the learning algorithm improves. These keywords were added by machine and not by the authors. It is reasonable to currently see electrospinning as an area dominated by experimental work but there is a growing computational element and we review how far such developments have reached and the potential for identifying new solutions for the application of electrospinning to tissue engineering. We show how the use of alternative electrode arrangements can lead to a control of the internal organisation with potential for property enhancement. We show how the control of temperature opens several opportunities as does the inclusion of additives to influence conductivity and viscosity. Several of these focus on the solvent and the desirability of using water for biological systems rather than highly volatile solvents such as those based on fluoroalcohols which lead, for example to the denaturing of collagen. We identify the key potential advantages of electrospinning for constructing scaffolds and we explore some of the remaining challenges. We review how the process of generating scaffolds for tissue engineering using the process of electrospinning sits alongside other more established pro cedures for the preparation of scaffolds. ![]()
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