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Principles of Tissue Engineering

Presents the latest advances in the biology and design of tissues and organs, while simultaneously connecting the basic sciences with the potential application of tissue engineering to diseases affecting specific organ systems

Robert Lanza (Edited by), Robert Langer (Edited by), Joseph P. Vacanti (Edited by), Anthony Atala (Edited by)

9780128184226, Elsevier Science

Hardback, published 2 June 2020

1678 pages, 500 illustrations (300 in full color)
27.6 x 21.5 x 7.1 cm, 3.44 kg

Now in its fifth edition, Principles of Tissue Engineering has been the definite resource in the field of tissue engineering for more than a decade. The fifth edition provides an update on this rapidly progressing field, combining the prerequisites for a general understanding of tissue growth and development, the tools and theoretical information needed to design tissues and organs, as well as a presentation by the world’s experts of what is currently known about each specific organ system.

As in previous editions, this book creates a comprehensive work that strikes a balance among the diversity of subjects that are related to tissue engineering, including biology, chemistry, material science, and engineering, among others, while also emphasizing those research areas that are likely to be of clinical value in the future.

This edition includes greatly expanded focus on stem cells, including induced pluripotent stem (iPS) cells, stem cell niches, and blood components from stem cells. This research has already produced applications in disease modeling, toxicity testing, drug development, and clinical therapies. This up-to-date coverage of stem cell biology and the application of tissue-engineering techniques for food production – is complemented by a series of new and updated chapters on recent clinical experience in applying tissue engineering, as well as a new section on the emerging technologies in the field.

PART I – Foundations

Chapter 1 – Introduction

Bedir Tekinerdogan, Dominique Blouin, Hans Vangheluwe, Miguel Goulão, Paulo Carreira, Vasco Amaral

Chapter 2

An Ontological Foundation for Understanding Multi-Paradigm Modeling for Cyber-Physical Systems R. Paige, M. van den Brand

Chapter 3

Feature-based Survey of Cyber-Physical Systems

B. Akesson, J. Hooman, R. Dekker, W. Ekkelkamp, B. Stottelaar

PART II - Techniques

Chapter 4

Current standards and best practices used in CPS G. Orhan & M. Aksit

Chapter 5

Tools and techniques used in different disciplines for CPS development: Modeling languages S. Schuster, I. Schaefer, C. Seidl

Chapter 6

Tools and techniques used in different disciplines for CPS development: Interfaces for Interoperability O. Al-wadeai, A. García-Domínguez, A. Bagnato, A. Abhervé, K. Barmpis

Chapter 7

Tools and techniques used in different disciplines for CPS development: Processes Y. Luo, J. Mengerink, M. van den Brand, R. Schiffelers

Chapter 8

Requirements for future MPM4CPS modelling tools and techniques B. Tekinerdogan, D. Blouin

PART III – Application Domains

Chapter 9

Case Study: Alarm Detection and Monitoring of Smart Factory Environment using Hybrid Sensor Network L. Banjanovic-Mehmedovic, D. Blouin, F. Mehmedovic, M. Zukic

Chapter 10

Case Study: Embedded Devices

Constantin-Bala Zamfirescu and Peter Larsen

Chapter 11

Case Study: SmartLab Cloud System for IoT

H. Vangheluwe

Chapter 12

Automated Analysis of Model-Driven Artifacts in Industry – Big Data Analytics

Y. Luo, J. Mengerink, M. van den Brand, R. Schiffelers

PART IV – Education

Chapter 13

On a MPM4CPS Curricula V. Amaral, M. Goulão

Chapter 14 Developing a mutually-recognized cross-domain study program in cyber-physical systems

Paulo Carreira

Glossary

Author Index

Subject Index

Subject Areas: Cellular biology [cytology PSF], Biomedical engineering [MQW], Personal & public health [MBNH], Biotechnology industries [KNDH1]

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