AbstractOne of the main problems with the use of synthetic polymers as biomaterials is the invasion of micro-organisms causing infection. A study of the properties of polymeric antibacterial agents, in particular polyhexamethylene biguanide, has revealed that the essential components for the design of a novel polymeric antibacterial are a balance between hydrophilicity and hydrophobicity coupled with sites of cationicity. The effect of cation incorporation on the physical properties of hydrogels has been
investigated. Hydrogel systems copolymerised with either N-vinyl imidazole or
dimethylaminoethyl methacrylate have been characterised in terms of their water
binding, mechanical and surface properties. It has been concluded that the
incorporation of these monomers does not adversely affect the properties of such
hydrogels and that these materials are potential candidates for further development for use in biomedical applications.
It has been reported that hydro gels with ionic character may increase the deposition of biological material onto the hydrogel surface when it is in contact with body fluids. An investigation into the deposition characteristics of hydrogels containing the potentially cationic monomers has been carried out, using specific protein adsorption and in vitro spoilation techniques. The results suggest that at low levels of cationicity, the deposition of positively charged proteins is reduced without adversely affecting the uptake of the other proteins. The gross deposition characteristics were found to be comparable to some commercially available contact lens materials.
A preliminary investigation into the development of novel antibacterial polymers has been completed and some novel methods of bacterial inhibition discussed. These methods include development of an hydrogel whose potential application is as a catheter coating.
|Date of Award||Apr 1996|
|Supervisor||Brian Tighe (Supervisor)|
- antibacterial activity
- deposition characteristic s
- N-vinyl imidazole
- dimethylaminoethyl methacrylate