Add to ORKGThe global aim of this thesis was to study the use of microarray technology for the screening and identification of biocompatible polymers, to understand physiological phenomena, and the design of biomaterials, implant surfaces and tissue-engineering scaffolds. This work was based upon the polymer microarray platform developed by the Bradley group. Polymer microarrays were successfully applied to find the best polymer supports for: (i) mouse fibroblast cells and used to evaluate cell biocompatibility and cell morphology. Fourteen polyurethanes demonstrated significant cellular adhesion. (ii) Analysis of the adhesion of human erythroleukaemic K562 suspension cells onto biomaterials with particular families of polyurethanes and pol...
A polymer microarray of 120 polyurethanes was used to identify polymers that promoted the adhesion o...
Cell therapy is a technology that relies on replacing diseased or dysfunctional cells with healthy f...
The high throughput discovery of new materials can be achieved by rapidly screening many different m...
Biocompatible polymers are used exhaustively within the biomedical arena, demonstrating a mechanica...
The development and identification of new biomaterials that can replace specific tissues and organs...
Materials discovery provides the opportunity to identify novel materials that are tailored to comple...
The field of biomaterials has seen huge development over the past decade with enormous efforts inve...
Biofilm formation on blood-contacting medical devices is a major healthcare problem causing signific...
The discovery of novel biomaterials that are optimized for a specific biological application is read...
In my PhD polymer microarrays have been central in discovery of new materials for cardiovascular re...
Since Langer’s seminal work, polymers have been on every corner of tissue engineering. The roles of ...
Research on the interactions between microbes and polymeric materials constitutes an important part...
The need for efficient and reproducible cell culture is necessary for the development of novel biol...
Human pluripotent stem cell (hPSC) derived cardiomyocytes can provide robust in vitro models for pha...
Improved biomaterials are required for application in regenerative medicine, biosensing, and as medi...
A polymer microarray of 120 polyurethanes was used to identify polymers that promoted the adhesion o...
Cell therapy is a technology that relies on replacing diseased or dysfunctional cells with healthy f...
The high throughput discovery of new materials can be achieved by rapidly screening many different m...
Biocompatible polymers are used exhaustively within the biomedical arena, demonstrating a mechanica...
The development and identification of new biomaterials that can replace specific tissues and organs...
Materials discovery provides the opportunity to identify novel materials that are tailored to comple...
The field of biomaterials has seen huge development over the past decade with enormous efforts inve...
Biofilm formation on blood-contacting medical devices is a major healthcare problem causing signific...
The discovery of novel biomaterials that are optimized for a specific biological application is read...
In my PhD polymer microarrays have been central in discovery of new materials for cardiovascular re...
Since Langer’s seminal work, polymers have been on every corner of tissue engineering. The roles of ...
Research on the interactions between microbes and polymeric materials constitutes an important part...
The need for efficient and reproducible cell culture is necessary for the development of novel biol...
Human pluripotent stem cell (hPSC) derived cardiomyocytes can provide robust in vitro models for pha...
Improved biomaterials are required for application in regenerative medicine, biosensing, and as medi...
A polymer microarray of 120 polyurethanes was used to identify polymers that promoted the adhesion o...
Cell therapy is a technology that relies on replacing diseased or dysfunctional cells with healthy f...
The high throughput discovery of new materials can be achieved by rapidly screening many different m...