Marine Derived Biomaterials For Tissue Engineering Applications
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Marine-Derived Biomaterials for Tissue Engineering Applications
This book presents the latest advances in marine structures and related biomaterials for applications in both soft- and hard-tissue engineering, as well as controlled drug delivery. It explores marine structures consisting of materials with a wide variety of characteristics that warrant their use as biomaterials. It also underlines the importance of exploiting natural marine resources for the sustainable development of novel biomaterials and discusses the resulting environmental and economic benefits. The book is divided into three major sections: the first covers the clinical application of marine biomaterials for drug delivery in tissue engineering, while the other two examine the clinical significance of marine structures in soft- and hard-tissue engineering, respectively. Focusing on clinically oriented applications, it is a valuable resource for dentists, oral and maxillofacial surgeons, orthopedic surgeons, and students and researchers in the field of tissue engineering.
Marine Biomaterials
Oceans are an abundant source of diverse biomaterials with potential for an array of uses. Marine Biomaterials: Characterization, Isolation and Applications brings together the wide range of research in this important area, including the latest developments and applications, from preliminary research to clinical trials. The book is divided into four parts, with chapters written by experts from around the world. Biomaterials described come from a variety of marine sources, such as fish, algae, microorganisms, crustaceans, and mollusks. Part I covers the isolation and characterization of marine biomaterials—bioceramics, biopolymers, fatty acids, toxins and pigments, nanoparticles, and adhesive materials. It also describes problems that may be encountered in the process as well as possible solutions. Part II looks at biological activities of marine biomaterials, including polysaccharides, biotoxins, and peptides. Chapters examine health benefits of the biomaterials, such as antiviral activity, antidiabetic properties, anticoagulant and anti-allergic effects, and more. Part III discusses biomedical applications of marine biomaterials, including nanocomposites, and describes applications of various materials in tissue engineering and drug delivery. Part IV explores commercialization of marine-derived biomaterials—marine polysaccharides and marine enzymes—and examines industry perspectives and applications. This book covers the key aspects of available marine biomaterials for biological and biomedical applications, and presents techniques that can be used for future isolation of novel materials from marine sources.
Handbook of the Extracellular Matrix
This book comprises 6 sections covering the fundamentals of the extracellular matrix, as well as the development and challenges of using biologically-derived materials, and its advanced biomedical applications. The first section is dedicated to the extracellular matrix, while the other 5 sections are each dedicated to a particular type of material. This book reports the fundamentals of the extracellular matrix and its impact on the development of innovative materials; provides an overview of the advanced methodologies used to develop biologically-derived materials; and describes the challenges of the synthesis and processing of the different materials. Furthermore, it presents the biological activities, structural and physicochemical properties of such materials, and the modification methods pursued to improve their inherent properties. The wide range of advanced applications are covered as well, including the combination with emerging technologies, underlying tissue-engineered scaffolding, drug delivery systems, 3D in vitro tissue and cancer models, 3D bioprinted models, bioinks, and more. This reference work serves as a core reference for multidisciplinary students (undergraduates and Ph.D. students) and a wide range of established researchers and professionals working in the medical field, e.g., orthopaedics, radiology, dentistry, and cancer.