This text for advanced undergraduate and graduate students covers the fundamental relationships between the structure and properties of materials and biological tissues. The successful integration of material and biological properties, shape, and architecture to engineer a wide range of optimized designs for specific functions is the ultimate aim of a biomaterials scientist. Relevant examples illustrate the intrinsic and tailored properties of metal, ceramic, polymeric, carbon-derived, composite, and naturally derived biomaterials.
Fundamentals of Biomaterials is written in a single voice, ensuring clarity and continuity of the text and content. As a result, the reader will be gradually familiarized with the field, starting with materials and their properties and eventually leading to critical interactions with the host environment. Classical and novel examples illuminate topics from basic material properties to tissue engineering, nanobiomaterials, and guided tissue regeneration.
This comprehensive and engaging text:
integrates materials and biological properties to understand biomaterials function and design
provides the basics of biological tissue components and hierarchy
includes recent topics from tissue engineering and guided tissue regeneration to nanoarchitecture of biomaterials and their surfaces
contains perspectives/case studies from widely-recognized experts in the field
features chapter-ending summaries to help readers to identify the key, take-home messages.