%0 Journal Article %1 tay2011micronanoengineered %A Tay, Chor Yong %A Irvine, Scott Alexander %A Boey, Freddy Y. C. %A Tan, Lay Poh %A Venkatraman, Subbu %D 2011 %I WILEY-VCH Verlag %J Small %K 3d cell confinement phd review %N 10 %P 1361--1378 %R 10.1002/smll.201100046 %T Micro-/Nano-engineered Cellular Responses for Soft Tissue Engineering and Biomedical Applications %U http://dx.doi.org/10.1002/smll.201100046 %V 7 %X The development of biomedical devices and reconstruction of functional ex vivo tissues often requires the need to fabricate biomimetic surfaces with features of sub-micrometer precision. This can be achieved with the advancements in micro-/nano-engineering techniques, allowing researchers to manipulate a plethora of cellular behaviors at the cell–biomaterial interface. Systematic studies conducted on these 2D engineered surfaces have unraveled numerous novel findings that can potentially be integrated as part of the design consideration for future 2D and 3D biomaterials and will no doubt greatly benefit tissue engineering. In this review, recent developments detailing the use of micro-/nano-engineering techniques to direct cellular orientation and function pertinent to soft tissue engineering will be highlighted. Particularly, this article aims to provide valuable insights into distinctive cell interactions and reactions to controlled surfaces, which can be exploited to understand the mechanisms of cell growth on micro-/nano-engineered interfaces, and to harness this knowledge to optimize the performance of 3D artificial soft tissue grafts and biomedical applications.

@article{tay2011micronanoengineered, abstract = {The development of biomedical devices and reconstruction of functional ex vivo tissues often requires the need to fabricate biomimetic surfaces with features of sub-micrometer precision. This can be achieved with the advancements in micro-/nano-engineering techniques, allowing researchers to manipulate a plethora of cellular behaviors at the cell–biomaterial interface. Systematic studies conducted on these 2D engineered surfaces have unraveled numerous novel findings that can potentially be integrated as part of the design consideration for future 2D and 3D biomaterials and will no doubt greatly benefit tissue engineering. In this review, recent developments detailing the use of micro-/nano-engineering techniques to direct cellular orientation and function pertinent to soft tissue engineering will be highlighted. Particularly, this article aims to provide valuable insights into distinctive cell interactions and reactions to controlled surfaces, which can be exploited to understand the mechanisms of cell growth on micro-/nano-engineered interfaces, and to harness this knowledge to optimize the performance of 3D artificial soft tissue grafts and biomedical applications.}, added-at = {2012-12-20T15:11:00.000+0100}, author = {Tay, Chor Yong and Irvine, Scott Alexander and Boey, Freddy Y. C. and Tan, Lay Poh and Venkatraman, Subbu}, biburl = {https://www.bibsonomy.org/bibtex/2fff6fb7c21ebfd72d4bedc17b0147b06/bkoch}, description = {Micro-/Nano-engineered Cellular Responses for Soft Tissue Engineering and Biomedical Applications - Tay - 2011 - Small - Wiley Online Library}, doi = {10.1002/smll.201100046}, interhash = {590b81fb66f0896f4b70d1feb0b39891}, intrahash = {fff6fb7c21ebfd72d4bedc17b0147b06}, issn = {1613-6829}, journal = {Small}, keywords = {3d cell confinement phd review}, number = 10, pages = {1361--1378}, publisher = {WILEY-VCH Verlag}, timestamp = {2012-12-20T15:11:00.000+0100}, title = {Micro-/Nano-engineered Cellular Responses for Soft Tissue Engineering and Biomedical Applications}, url = {http://dx.doi.org/10.1002/smll.201100046}, volume = 7, year = 2011 }