Table of Contents

Part 1 Cell responses to biomaterials using polymers and ceramics: Biocompatible 3-D scaffolds for tendon tissue engineering using electrospinning; Degradable polymers and polymer composites for tissue engineering; Biocompatibility of degradable polymers for tissue engineering; Cellular response to the surface chemistry of nanostructured biomaterials; Biocompatibility and other properties of hydrogels in regenerative medicine; Cellular response to bioceramics; Biocompatibility and other properties of phosphate-glasses for medical applications. Part 2 Cell responses and regenerative medicine: Biodegradable scaffolds for tissue engineering; Developing smaller-diameter biocompatible vascular grafts; Improving biomaterials in tendon and muscle regeneration; Biomaterials for the repair of peripheral nerves; Stem cells and tissue scaffolds for bone repair; Cellular response to osteoinductive materials in orthopaedic surgery; Cellular response to bone graft matrices; Cellular response to hydroxyapatite and Bioglass® in tissue engineering and regenerative medicine; Diamond-like carbon (DLC) as a biocompatible coating in orthopaedic and cardiac medicine. Part 3 The effect of surfaces and proteins on cell response: Cell response to nanofeatures in biomaterials; Cell response to surface chemistry in biomaterials; Bioactive surfaces using peptide grafting in tissue engineering; In vitro testing of biomaterial toxicity and biocompatibility; The influence of plasma proteins on bone cell adhesion; Degradation of calcium phosphate coatings and bone substitutes; Surface-modified titanium to enhance osseointegration in dental implants; Surface modification of titanium for the enhancement of cell response.