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dc.contributor.advisorChen, Doctor Yuhang
dc.contributor.advisorRitchie, Professor James
dc.contributor.authorYntema, Frank Jan
dc.date.accessioned2020-02-10T15:25:38Z
dc.date.available2020-02-10T15:25:38Z
dc.date.issued2018-10
dc.identifier.urihttp://hdl.handle.net/10399/4122
dc.description.abstractScaffold tissue engineering has proven promising for regenerative medicine that could potentially improve the lives of many. To accelerate its clinical translation, a better understanding of complex behaviours of the in-vivo environment in human tissue and, more importantly, how it influences the design of the porous scaffold, is needed. The use of computational modelling has made it possible by providing quantitative insights into many biological and physical processes in tissue scaffolds under various tissue environments. This has led to a new line of research for creating methods in which new designs of implant and tissue graft designs can be assessed and optimised. The aim of this thesis is to devise a computational framework that has the flexibility and simplicity necessary to adapt to different applications of tissue scaffolds and allow for further adaptation for more specialised investigations, while simultaneously having sufficient complexity to assess the effects of changes in the scaffold’s microstructures for the qualitative analysis of its potential for promoting tissue ingrowth. It is hoped that the future developments of this thesis research work could be used to create a means of comparing scaffold performance when subjected to different environments. This will make it possible to assess a scaffold design’s potential during the early stages of development for a variety of applications and conditions.en
dc.language.isoenen
dc.publisherEngineering and Physical Sciencesen
dc.publisherHeriot-Watt Universityen
dc.titleMathematical modelling of oxygen supply and cellular behaviour in tissue engineering scaffoldsen
dc.typeThesisen


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