Details
Biofabrication for Orthopedics
Methods, Techniques and Applications1. Aufl.
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223,99 € |
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| Verlag: | Wiley-VCH (D) |
| Format: | EPUB |
| Veröffentl.: | 03.10.2022 |
| ISBN/EAN: | 9783527831357 |
| Sprache: | englisch |
| Anzahl Seiten: | 688 |
DRM-geschütztes eBook, Sie benötigen z.B. Adobe Digital Editions und eine Adobe ID zum Lesen.
Beschreibungen
<b>Biofabrication for Orthopedics</b> <p><b>A comprehensive overview of biofabrication techniques for orthopedics and their novel applications</b> <p>With an ever-increasing global population and the rise in the occurrence of orthopedic diseases amongst an aging population, it is essential for technological advances to meet this growing medical need. Orthopedic biofabrication is a cutting-edge field that seeks to produce novel clinical solutions to this mounting problem, through the incorporation of revolutionary technologies that have the potential to not only transform healthcare, but also provide highly automated and personalized patient solutions. With the advances in the discipline, there is a significant growing interest in biofabrication for orthopedics in research activity geared towards routine clinical use. <p>Ideal for a broad readership amongst medical practitioners and scientists, <i>Biofabrication for Orthopedics</i> summarizes all aspects of the topic: detailed information on the technology, along with advanced developments, research progress, and future perspectives on biofabrication for orthopaedics—particularly on the potential applications for tissue engineering technologies. In doing so, the book describes the various biomaterials—natural and synthetic—use for orthopedics and discusses the many ways in which these materials can be used in all parts of the body. As such, it offers detailed information on a wide range of applications in the fields of biology and clinical and industrial manufacturing. <p><I>Biofabrication for Orthopedics</I> readers will also find: <ul><li>Insights into the applications of biofabrication technologies in various bodily functions</li> <li>Thorough discussion of different biofabrication techniques used in creating orthopedic products, like stereolithography, cell sheet and organ bioprinting, electrospinning, and microfluidics</li> <li>Discussion of a wide range of diverse functions, such as bone implants, skin regeneration, vascularization, meniscus remodeling, and more</li></ul> <p><i>Biofabrication for Orthopedics</i> is a useful reference for those in a variety of research fields like medical-related practitioners and scientists, materials science, medicine, and manufacturing, as well as the libraries who support them.
PART I: BIOFABRICATION TECHNIQUES<br> Chapter 1: Solid scaffold-based biofabrication<br> Chapter 2: Embedding and molding technologies<br> Chapter 3: Cell sheet technologies <br> Chapter 4: Printing biofabrication techniques-3D printing, Light-Based Technologies, Fused deposition modeling, Inkjet printing, 3D plotting, etc (OR Organ printing, Digital bioprinting, Inkjet bioprinting)<br> Chapter 5: Magnetic force-driven biofabrication<br> Chapter 6: Dielectrophoresis for biofabrication<br> Chapter 8: Nanotechnology based biofabrication technologies<br> Chapter 9: Microfluidics-based techniques<br> Chapter 10: Electrospinning techniques<br> <br> PART II: BIOMEDICAL APPLICATIONS IN ORTHOPEDICS<br> Chapter 11: Bone Implants (Bone regeneration and Bone Cancer Treatments)<br> Chapter 12: Nerve regeneration (Spinal Grafting and Never conduit) <br> Chapter 13: Muscle repair<br> Chapter 14: Intervertebral disc repair<br> Chapter 15: Cartilage repair (Cartilage regeneration and Osteochondral regeneration)<br> Chapter 16: Rotator cuff repair<br> Chapter 17: Tendon repair (Tendon healing and Tendon adhesion)<br> Chapter 18: Skin regeneration<br> Chapter 19: Vascularization<br> Chapter 20: Meniscus remodeling<br> <br>
<p><i><b>Wenguo Cui, PhD,</b> is a full professor at the Shanghai Institute of Traumatology and Orthopaedics, Ruijin Hospital, Shanghai Jiao Tong University School of Medicine, China. He is also currently the group leader of Regnerative Biomaterials. He has numerous awards for his research from numerous organizations in China. </i> <p><i><b>Xin Zhao, PhD, </b> is associate professor at the Department of Biomedical Engineering, the Hong Kong Polytechnic Universitym Hong Kong SAR, China. She obtained her PhD at University College London, UK and postdoc training at Harvard University, USA before her time at PolyU. </i> <p><i><b>Shen Liu, MD, PhD,</b> is a professor at the Department of Orthopaedics, Shanghai Jiao Tong University Affiliated Sixth People???s Hospital, China. He received his MD and PhD from the Department of Orthopaedics, Shanghai Jiao Tong University Affiliated Sixth People???s Hospital and his postdoctor in Johns Hopkins University, USA. He has received numerous awards for his research in China.</i>
<p><b>A comprehensive overview of biofabrication techniques for orthopedics and their novel applications</b> <p>With an ever-increasing global population and the rise in the occurrence of orthopedic diseases amongst an aging population, it is essential for technological advances to meet this growing medical need. Orthopedic biofabrication is a cutting-edge field that seeks to produce novel clinical solutions to this mounting problem, through the incorporation of revolutionary technologies that have the potential to not only transform healthcare, but also provide highly automated and personalized patient solutions. With the advances in the discipline, there is a significant growing interest in biofabrication for orthopedics in research activity geared towards routine clinical use. <p>Ideal for a broad readership amongst medical practitioners and scientists, <i>Biofabrication for Orthopedics</i> summarizes all aspects of the topic: detailed information on the technology, along with advanced developments, research progress, and future perspectives on biofabrication for orthopaedics—particularly on the potential applications for tissue engineering technologies. In doing so, the book describes the various biomaterials—natural and synthetic—use for orthopedics and discusses the many ways in which these materials can be used in all parts of the body. As such, it offers detailed information on a wide range of applications in the fields of biology and clinical and industrial manufacturing. <p><I>Biofabrication for Orthopedics</I> readers will also find: <ul><li>Insights into the applications of biofabrication technologies in various bodily functions</li> <li>Thorough discussion of different biofabrication techniques used in creating orthopedic products, like stereolithography, cell sheet and organ bioprinting, electrospinning, and microfluidics</li> <li>Discussion of a wide range of diverse functions, such as bone implants, skin regeneration, vascularization, meniscus remodeling, and more</li></ul> <p><i>Biofabrication for Orthopedics</i> is a useful reference for those in a variety of research fields like medical-related practitioners and scientists, materials science, medicine, and manufacturing, as well as the libraries who support them.
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