Three-dimensional scaffolds for tissue engineering applications : role of porosity and pore size
Tissue engineering applications commonly encompass the use of three-dimensional (3D) scaffolds to provide a suitable microenvironment for the incorporation of cells or growth factors to regenerate damaged tissues or organs. These scaffolds serve to mimic the actual in vivo microenvironment where cel...
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sg-ntu-dr.10356-1061202023-07-14T15:56:16Z Three-dimensional scaffolds for tissue engineering applications : role of porosity and pore size Loh, Qiu Li Choong, Cleo Swee Neo School of Materials Science & Engineering DRNTU::Engineering::Materials Tissue engineering applications commonly encompass the use of three-dimensional (3D) scaffolds to provide a suitable microenvironment for the incorporation of cells or growth factors to regenerate damaged tissues or organs. These scaffolds serve to mimic the actual in vivo microenvironment where cells interact and behave according to the mechanical cues obtained from the surrounding 3D environment. Hence, the material properties of the scaffolds are vital in determining cellular response and fate. These 3D scaffolds are generally highly porous with interconnected pore networks to facilitate nutrient and oxygen diffusion and waste removal. This review focuses on the various fabrication techniques (e.g., conventional and rapid prototyping methods) that have been employed to fabricate 3D scaffolds of different pore sizes and porosity. The different pore size and porosity measurement methods will also be discussed. Scaffolds with graded porosity have also been studied for their ability to better represent the actual in vivo situation where cells are exposed to layers of different tissues with varying properties. In addition, the ability of pore size and porosity of scaffolds to direct cellular responses and alter the mechanical properties of scaffolds will be reviewed, followed by a look at nature's own scaffold, the extracellular matrix. Overall, the limitations of current scaffold fabrication approaches for tissue engineering applications and some novel and promising alternatives will be highlighted. Published version 2014-10-09T08:12:06Z 2019-12-06T22:04:57Z 2014-10-09T08:12:06Z 2019-12-06T22:04:57Z 2013 2013 Journal Article Loh, Q. L., & Choong, C. (2013). Three-dimensional scaffolds for tissue engineering applications : role of porosity and pore size. Tissue engineering Part B: reviews, 19(6), 485-502. 2152-4947 https://hdl.handle.net/10356/106120 http://hdl.handle.net/10220/23977 10.1089/ten.teb.2012.0437 23672709 en Tissue engineering Part B: reviews © 2013 Mary Ann Liebert. This paper was published in Tissue Engineering Part B: Reviews and is made available as an electronic reprint (preprint) with permission of Mary Ann Liebert. The paper can be found at the following official DOI: http://dx.doi.org/10.1089/ten.teb.2012.0437. One print or electronic copy may be made for personal use only. Systematic or multiple reproduction, distribution to multiple locations via electronic or other means, duplication of any material in this paper for a fee or for commercial purposes, or modification of the content of the paper is prohibited and is subject to penalties under law. 18 p. application/pdf |
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DRNTU::Engineering::Materials Loh, Qiu Li Choong, Cleo Swee Neo Three-dimensional scaffolds for tissue engineering applications : role of porosity and pore size |
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Tissue engineering applications commonly encompass the use of three-dimensional (3D) scaffolds to provide a suitable microenvironment for the incorporation of cells or growth factors to regenerate damaged tissues or organs. These scaffolds serve to mimic the actual in vivo microenvironment where cells interact and behave according to the mechanical cues obtained from the surrounding 3D environment. Hence, the material properties of the scaffolds are vital in determining cellular response and fate. These 3D scaffolds are generally highly porous with interconnected pore networks to facilitate nutrient and oxygen diffusion and waste removal. This review focuses on the various fabrication techniques (e.g., conventional and rapid prototyping methods) that have been employed to fabricate 3D scaffolds of different pore sizes and porosity. The different pore size and porosity measurement methods will also be discussed. Scaffolds with graded porosity have also been studied for their ability to better represent the actual in vivo situation where cells are exposed to layers of different tissues with varying properties. In addition, the ability of pore size and porosity of scaffolds to direct cellular responses and alter the mechanical properties of scaffolds will be reviewed, followed by a look at nature's own scaffold, the extracellular matrix. Overall, the limitations of current scaffold fabrication approaches for tissue engineering applications and some novel and promising alternatives will be highlighted. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Loh, Qiu Li Choong, Cleo Swee Neo |
| format |
Article |
| author |
Loh, Qiu Li Choong, Cleo Swee Neo |
| author_sort |
Loh, Qiu Li |
| title |
Three-dimensional scaffolds for tissue engineering applications : role of porosity and pore size |
| title_short |
Three-dimensional scaffolds for tissue engineering applications : role of porosity and pore size |
| title_full |
Three-dimensional scaffolds for tissue engineering applications : role of porosity and pore size |
| title_fullStr |
Three-dimensional scaffolds for tissue engineering applications : role of porosity and pore size |
| title_full_unstemmed |
Three-dimensional scaffolds for tissue engineering applications : role of porosity and pore size |
| title_sort |
three-dimensional scaffolds for tissue engineering applications : role of porosity and pore size |
| publishDate |
2014 |
| url |
https://hdl.handle.net/10356/106120 http://hdl.handle.net/10220/23977 |
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1772826332952002560 |