Regenerative Medicine and Biomaterials for the Repair of Connective Tissues

Download or Read online Regenerative Medicine and Biomaterials for the Repair of Connective Tissues full in PDF, ePub and kindle. This book written by Charles Archer and published by Elsevier which was released on 12 January 2010 with total pages 504. We cannot guarantee that Regenerative Medicine and Biomaterials for the Repair of Connective Tissues book is available in the library, click Get Book button to download or read online books. Join over 650.000 happy Readers and READ as many books as you like.

Regenerative Medicine and Biomaterials for the Repair of Connective Tissues
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Publisher : Elsevier
Release Date :
ISBN : 9781845697792
Pages : 504 pages
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Download or Read Online Regenerative Medicine and Biomaterials for the Repair of Connective Tissues in PDF, Epub and Kindle

Regenerative medicine for the repair of connective tissues is a fast moving field which generates a lot of interest. Unfortunately the biomaterials and biomechanics for soft tissue repair has been under-represented in the past. Particularly the natural association between cartilage, tendons and ligaments is often not made. Regenerative medicine and biomaterials for the repair of connective tissues addresses this gap in the market by bringing together the natural association of cartilage, tendons and ligaments to provide a review of the different structures, biomechanics and, more importantly, provide a clear discussion of practical techniques and biomaterials which may be used to repair the connective tissues. Part one discusses cartilage repair and regeneration with chapters on such topics as structure, biomechanics and repair of cartilage. Chapters in Part two focus on the repair of tendons on ligaments with particular techniques including cell-based therapies for the repair and regeneration of tendons and ligaments and scaffolds for tendon and ligament tissue engineering. Addresses the natural association between cartilage, tendons and ligaments which is often not made Provides a review of the different structures, biomechanics and practical techniques which are used in the repair of connective tissues Chapters focus on such areas as cartilage repair and regeneration, the repair of tendons and ligaments, investigating techniques including scaffolds and cell-based therapies

Regenerative Medicine and Biomaterials for the Repair of Connective Tissues

Regenerative medicine for the repair of connective tissues is a fast moving field which generates a lot of interest. Unfortunately the biomaterials and biomechanics for soft tissue repair has been under-represented in the past. Particularly the natural association between cartilage, tendons and ligaments is often not made. Regenerative medicine and

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Extreme Tissue Engineering

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Virtually any disease that results from malfunctioning, damaged, or failing tissues may be potentially cured through regenerative medicine therapies, by either regenerating the damaged tissues in vivo, or by growing the tissues and organs in vitro and implanting them into the patient. Principles of Regenerative Medicine discusses the latest advances

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Nanoengineering in Musculoskeletal Regeneration provides the reader an updated summary of the therapeutic pipeline—from biomedical discovery to clinical implementation—aimed at improving treatments for patients with conditions of the muscles, tendons, cartilage, meniscus, and bone. Regenerative medicine focuses on using stem cell biology to advance medical therapies for devastating

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Developments in Tissue Engineered and Regenerative Medicine Products

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Millions of patients suffer from end-stage organ failure or tissue loss annually, and the only solution might be organ and/or tissue transplantation. To avoid poor biocompatibility–related problems and donor organ shortage, however, around 20 years ago a new, hybridized method combining cells and biomaterials was introduced as an alternative

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Repair and regeneration of musculoskeletal tissues is generating substantial interest within the biomedical community. Consequently, these are the most researched tissues from the regeneration point of view. Regenerative Engineering of Musculoskeletal Tissues and Interfaces presents information on the fundamentals, progress and recent developments related to the repair and regeneration of

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Progenitor and Stem Cell Technologies and Therapies

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The increased use of biodegradable synthetic or natural scaffolds combined with cells and/or biological molecules, in order to create functional replacement tissue in a damaged tissue site, has led to the need for the development of ‘best practice’ methods in the area of tissue engineering to help ensure the

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Nanomaterial technologies can be used to fabricate high-performance biomaterials with tailored physical, chemical, and biological properties. They are therefore an area of interest for emerging biomedical technologies such as scaffolding, tissue regeneration, and controlled drug delivery. Nanomaterials in tissue engineering explores the fabrication of a variety of nanomaterials and the

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Material-Tissue Interfacial Phenomena: Contributions from Dental and Craniofacial Reconstructions explores the material/tissue interfacial phenomena using dental and craniofacial reconstructions as a model system. As the mouth is a particularly caustic environment, the synthetic and/or bio-enabled materials used to repair damaged tissues and restore form, function, and esthetics to

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Biomedical foams are a new class of materials, which are increasingly being used for tissue engineering applications. Biomedical Foams for Tissue Engineering Applications provides a comprehensive review of this new class of materials, whose structure can be engineered to meet the requirements of nutrient trafficking and cell and tissue invasion,

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Medical Modelling

Medical modelling and the principles of medical imaging, Computer Aided Design (CAD) and Rapid Prototyping (also known as Additive Manufacturing and 3D Printing) are important techniques relating to various disciplines - from biomaterials engineering to surgery. Building on the success of the first edition, Medical Modelling: The application of Advanced

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