Handbook of Active Materials for Medical Devices: Advances and Applications

Free Standard Shipping

Purchasing Options

ISBN 9789814303361
Cat# N10471



SAVE 20%

eBook (VitalSource)
ISBN 9789814303354
Cat# NE10636



SAVE 30%

eBook Rentals

Other eBook Options:


  • Details the potential of active or intelligent materials for the development of sensors, actuators, and multifunctional systems linked to applications in the field of biodevices and medical appliances
  • Analyses the main biological and medical applications of different families of intelligent materials and includes case studies showing complete development processes
  • Covers synthesis, characterization, modeling, simulation, processing, and prototyping technologies as well as device testing and validation, linked to the main families of active or "intelligent" materials
  • Includes a proposed development methodology to help future researchers and developer of medical appliances and biodevices based on the capabilities of these novel materials
  • Provides an extensive bibliography for further reading and references to main manufacturers of several families of active materials


This book covers biodevices, mainly implantable or quirurgical, for the diagnosis or treatment of different pathologies, which benefit from the use of active materials as sensors or actuators. Such active or "intelligent" materials are capable of responding in a controlled way to different external physical or chemical stimuli by changing some of their properties. These materials can be used to design and develop sensors, actuators, and multifunctional systems with a large number of applications for developing biodevices and medical appliances.

Current work on these fields entails problems related to synthesis, characterization, modeling, simulation, processing, and prototyping technologies, as well as device testing and validation, all of which are treated in depth in this book, for the several types of active or intelligent materials covered. The research presented in this book helps further development of medical devices, based on the additional functionalities that the use of active or "intelligent" materials, both as sensors and actuators, supplies. The main results exposed may help with the industrial expansion of this kind of materials as part of more complex systems.

Table of Contents

Introduction to Product Development and Systematic Methodologies
General Considerations for Developing Medical Devices
Active Materials in Medical Devices
Shape Memory Alloys for Biodevices
Shape Memory Polymers for Biodevices
Electroactive Polymers as Actuators for Biodevices
Electroactive Polymers as Sensors for Biodevices
Pyroelectric Materials for Biodevices
Active Ceramics for Biodevices
Magnetically Active Materials for Biodevices
Optoactive and Photoactive Materials for Biodevices
Hydroactive Materials for Biodevices
Microstructured Active Materials in Biodevices
Nanostructured Active Materials in Biodevices
Novel Techniques, Methods and Processes for Active Materials in Biodevices
A Proposal for Structured Development Methodology

Editor Bio(s)

Andres Diaz Lantada studied industrial engineering and specialized in mechanical engineering at the Universidad Politécnica de Madrid (UPM), Spain (www.upm.es). He obtained his Ph.D. in mechanical engineering in 2009 with a thesis on "methodology for the structured development of medical devices based on active polymers." He has worked for 10 years as a researcher at this university’s Mechanical Engineering Department and collaborated actively with its Product Development Laboratory, in both research and teaching tasks. Currently he works as assistant professor at UPM and teaches subjects at both the graduate and postgraduate levels, as well as specialization courses. He is also actively engaged in conducting research on different areas related with product development. He has published more than 100 peer-reviewed scientific publications, several books and book chapters and is the co-inventor of 10 patents on the use of active materials for improving the sensing/actuating capabilities of medical products.

Editorial Reviews

"This book is an excellent summary of the up-to-date knowledge on currently available and future active materials for medical applications. The research-oriented structure and content of the book makes it unique and one of a kind."
—Prof. Emilio Bautista Paz - Universidad Politécnica de Madrid, Spain