Tissue Engineering Using Ceramics and Polymers

Aldo R. Boccaccini is Professor of Biomaterials and Head of the Institute of Biomaterials at the Department of Materials Science and Engineering, University of Erlangen-Nuremberg, Germany. Prior to this appointment, he was Professor of Materials Science and Engineering at Imperial College London, UK (2000-2009). He has remained Visiting Professor of Materials at Imperial College London. He is also visiting professor at Nagoya Institute of Technology (Japan), RWTH Aachen University (Germany) and Universidad Nacional de Cuyo (Argentina). The research activities of Prof. Boccaccini are in the broad area of glasses, ceramics and polymer/glass composites for biomedical, functional and/or structural applications. Prof. Boccaccini has also developed the electrophoretic deposition technique for production of nanostructured materials and composites with defined surface topography with potential use in the biomedical field. He is the author or co-author of more than 450 scientific papers and 15 book chapters. Boccaccini is Fellow of the Institute of Materials, Minerals and Mining (UK) and of the American Ceramic Society. He is the Editor-in-Chief of the journal “Materials Letters” (Elsevier) and serves in the editorial board of several recognized international journals. He has also edited two books with Elsevier. Dr Julie E. Gough is a Senior Lecturer in Biomedical Materials at the University of Manchester, UK. Dr Gough is widely respected for her research and activities in the field of biomaterials and tissue engineering.

Foreword

Introduction

Part I General issues: materials

1 Ceramic biomaterials for tissue engineering J. Huang, University College London, UK and S. Best, University of Cambridge, UK

2 Polymeric biomaterials for tissue engineering G. Wei, Medtronic, Inc./Osteotech, USA and P. X. Ma, University of Michigan, USA 3 Bioactive ceramics and glasses for tissue engineering M. N. Rahaman, Missouri University of Science and Technology, USA

4 Biodegradable and bioactive polymer/inorganic phase nanocomposites for bone tissue engineering (BTE) V. Miguez-Pacheco, University of Erlangen-Nuremberg, Germany, S. K. Misra, University of Birmingham, UK and A. R. Boccaccini, University of Erlangen-Nuremberg, Germany

Part II General issues: processing, characterisation and modeling

5 Nanoscale design in biomineralization for developing new biomaterials for bone tissue engineering G. M. Luz and J. F. Mano, University of Minho, Portugal 

6 Characterisation of cells on biomaterial surfaces and tissue-engineered constructs using microscopy techniques S. I. Anderson, University of Nottingham School of Medicine, UK 7 Materials for perfusion bioreactors used in tissue engineering I. Nettleship, University of Pittsburgh, USA

8 Transplantation of engineered cells and tissues J. Mansbridge, Histogen, Inc, USA

9 Carrier systems and biosensors for biomedical applications F. Davis and S. P. J. Higson, Cranfield University, UK

10 From images to mathematical models: intravoxel micromechanics for ceramics and polymers

K. Luczynski, A. Dejaco and C. Hellmich, Vienna University of Technology, Austria, V. Komlev, Russian Academy of Sciences, Russia and W. Swieszkowski, Warsaw University of Technology, Poland

Part III Tissue and organ regeneration  

11 Engineering of tissues and organs S. J. Lee and A. Atala, Wake Forest University School of Medicine, USA 12 Myocardial tissue engineering Q. Z. Chen, Monash University, Australia, S. E. Harding, Imperial College London, UK and R. Rai and A. R. Boccaccini, University of Erlangen-Nuremberg, Germany

13 Kidney tissue engineering A. Saito, Tokai University School of Medicine, Japan

14 Bladder tissue regeneration F. Wezel and J. Southgate, University of York, UK 

15 Peripheral nerve tissue engineering M. K. Kolar and P. J. Kingham, Umeå University, Sweden 16 Tissue engineering of the small intestine T. Ansari, Northwick Park Institute of Medical Research, UK and S. M. Gabe, Imperial College London, UK

17 Skeletal muscle tissue engineering D. Klumpp, R. E. Horch and J. P. Beier, University Hospital of Erlangen, Germany

18 Cartilage tissue engineering V. Salih, Plymouth University, UK

19 Liver tissue engineering J. Bierwolf and J.-M. Pollok, University Hospital Bonn, Germany

20 Collagen-based tubular constructs for tissue engineering applications C. E. Ghezzi, B. Marelli and S. N. Nazhat, McGill University, Canada

21 Bioceramic nanoparticles for tissue engineering and drug delivery V. Sokolova and M. Epple, University of Duisburg-Essen, Germany

22 Multifunctional scaffolds for bone tissue engineering and in situ drug delivery V. Mouriño and J. P. Cattalini, University of Buenos Aires, Argentina, W. Li and R. A. Boccaccini, University of Erlangen-Nuremberg, Germany and S. Lucangioli, University of Buenos Aires, Argentina