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Biodegradable and Biocompatible Polymer Nanocomposites: Processing, Characterization, and Applications brings together the latest research, highlighting cutting-edge applications in this exciting field. Sections introduce biodegradable and biocompatible polymers and the fundamentals regarding synthesis, structure, properties, biocompatibility and biodegradability, provide in-depth coverage of methods and techniques for processing, spectroscopic and microscopic analysis, dielectric, thermal, and electrical conductivity, and incorporation of functionalized nanoparticles, and green synthesized nanoparticles. The second part of the book guides the reader through the properties and preparation of biodegradable and biocompatible polymer nanocomposites for a range of specific, targeted, state-of-the-art applications across biomedicine, electronic, energy storage, environment and packaging. Finally, sustainability assessment, environmental impact, and recycling strategies are discussed in detail.
Polymers --- Biodegradation. --- Nanocomposites (Materials) --- Nanocomposites --- Biocompatible Materials --- Biocompatibility. --- Biocompatibility
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This book encompasses Materials Engineering with Medical Science which introduces the depth of knowledge from beginning with relevant fundamentals. This book fills the void which comprises a broad range of Materials Engineering with Medical science, from atomic physics to histology. This book greatly benefits towards those engineering students who are least familiar with biological science as well as medical science.
Biomedical materials. --- Bioartificial materials --- Biocompatible materials --- Biomaterials (Biomedical materials) --- Hemocompatible materials --- Medical materials --- Medicine --- Biomedical engineering --- Materials --- Biocompatibility --- Prosthesis
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"Biocompatibility Protocols for Medical Devices and Materials provides comprehensive coverage of the basic science and toxicological testing protocols necessary for the risk assessment and safety analysis of medical devices and materials which are based on the ISO guidelines for body contact and duration of contact. The book begins with device/component selection for toxicological experiments and provides an introduction to topics such as sensitization, irritation tests, material-mediated pyrogenicity, and bacterial-mediated pyrogenicity. Toxicology-related chapters explain the protocols for cytotoxicity, acute systemic toxicity, repeated-exposure systemic toxicity, genotoxicity, carcinogenicity, and reproductive toxicity testing. Biocompatibility Protocols for Medical Devices and Materials is a practical guide that provides step-by-step toxicological protocols ranging from materials selection to data interpretation for toxicologists, biomedical researchers, healthcare professionals, product developers, and others working in risk assessment and safety analysis of medical devices"--
Biocompatible Materials. --- Materials Testing. --- Testing, Hemocompatible Materials --- Biocompatibility Testing --- Biocompatible Materials Testing --- Hemocompatibility Testing --- Testing, Biocompatible Materials --- Hemocompatibility Testings --- Hemocompatible Materials Testing --- Materials Testing, Biocompatible --- Materials Testing, Hemocompatible --- Testing, Biocompatibility --- Testing, Hemocompatibility --- Testing, Materials --- Testings, Biocompatibility --- Flexural Strength --- Biocompatible Materials --- Bioartificial Materials --- Hemocompatible Materials --- Biomaterials --- Bioartificial Material --- Biocompatible Material --- Biomaterial --- Hemocompatible Material --- Material, Bioartificial --- Material, Biocompatible --- Material, Hemocompatible --- Materials Testing --- Biomimetic Materials --- Regenerative Medicine --- Medical instruments and apparatus --- Biomedical materials. --- Toxicity testing. --- Equipment and Supplies --- Testing.
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Biomedical materials. --- Phytochemicals --- Molecular aspects. --- Plant molecular biology --- Bioartificial materials --- Biocompatible materials --- Biomaterials (Biomedical materials) --- Hemocompatible materials --- Medical materials --- Medicine --- Biomedical engineering --- Materials --- Biocompatibility --- Prosthesis
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Tissue Engineering, Third Edition provides a completely revised release with sections focusing on Fundamentals of Tissue Engineering and Tissue Engineering of Selected Organs and Tissues. Key chapters are updated with the latest discoveries, including coverage of new areas (skeletal TE, ophthalmology TE, immunomodulatory biomaterials and immune systems engineering). The book is written in a scientific language that is easily understood by undergraduate and graduate students in basic biological sciences, bioengineering and basic medical sciences, and researchers interested in learning about this fast-growing field.
Biomedical materials. --- Bioartificial materials --- Biocompatible materials --- Biomaterials (Biomedical materials) --- Hemocompatible materials --- Medical materials --- Medicine --- Biomedical engineering --- Materials --- Biocompatibility --- Prosthesis --- Tissue engineering. --- Biocompatible Materials --- Tissue Engineering
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Polymeric biomaterials represent an essential tool in the biomedical field. Their high biocompatibility and ability to provide adequate regenerative support are fundamental for the development of new therapeutic devices. In particular, biomaterials derived from living organisms can exhibit not only structural roles but also several non-structural functions implicated in cellular growth, migration, and differentiation. Among them, type I collagen, a ubiquitous structural protein present in the mammalian body, plays a dominant role in maintaining the biological and structural integrity of various tissues. In recent years, with the goal of developing multi-functional collagen-based devices able to better promote the functional recovery of damaged tissues, numerous studies have focused on novel techniques and methods for the development and characterization of innovative and advanced high-performance formulations. The ability to control, modify, and tune collagen-based biomaterials performance by optimizing their architecture, besides modifying their chemistry, blending with other materials/therapeutics, or developing stimuli-responsive formulations, is an extremely important knowledge to acquire when specific multi-functionalities are sought. The present Special Issue collected 12 peer-reviewed interdisciplinary contributions on the broad topic of multi-functional collagen-based biomaterials.
Biomedical engineering. --- Biomedical materials. --- Bioartificial materials --- Biocompatible materials --- Biomaterials (Biomedical materials) --- Hemocompatible materials --- Medical materials --- Medicine --- Biomedical engineering --- Materials --- Biocompatibility --- Prosthesis --- Clinical engineering --- Medical engineering --- Bioengineering --- Biophysics --- Engineering
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Among the strategies for reducing the negative effects on the environment effected by the uncontrolled consumption and low potential for the recovery of conventional plastics, the synthesis of new biodegradable and recyclable plastics represents one of the most promising methods for minimizing the negative effects of conventional non-biodegradable plastics. The spectrum of existing biodegradable materials is still very narrow; thus, to achieve greater applicability, research is being carried out on biodegradable polymer mixtures, the synthesis of new polymers, and the incorporation of new stabilizers for thermal degradation, alongside the use of other additives such as antibacterials or new and more sustainable plasticizers. Some studies analyze direct applications, such as shape memory foams, new cartilage implants, drug release, etc. The reader can find several studies on the degradation of biodegradable polymers under composting conditions; however, novel bacteria that degrade polymers considered non-biodegradable in other, unusual conditions (such as conditions of high salinity) are also presented.
Biomedical materials. --- Polymers. --- Polymere --- Polymeride --- Polymers and polymerization --- Macromolecules --- Bioartificial materials --- Biocompatible materials --- Biomaterials (Biomedical materials) --- Hemocompatible materials --- Medical materials --- Medicine --- Biomedical engineering --- Materials --- Biocompatibility --- Prosthesis
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This contributed volume covers all fundamental principles for researchers and professionals interested in the field of Biomaterials and Tissue Engineering, an interdisciplinary field of research with contributions from biomedical scientists, engineers, and physicians. With a strong focus on biomaterials and scaffolds, the book also covers testing and evaluation pathways for in vitro and in vivo studies. This book also presents a broad range of topics including fundamentals of 3D printing and bioprinting, followed by contemporary technology used in tissue engineering applications as well as currently available biomaterials suitable for tissue repair and regeneration. This volume provides information on: (i) why humans need biomaterials, especially in medical applications, (ii) different types of tissue engineering strategies, and (iii) modeling, characterization, and evaluation of outputs of those strategies. This book is a reference material in the field of tissue engineering, and it is very useful for bachelor, M.Sc., and Ph.D. students, researchers, academics, medical, industry, and healthcare professionals from diverse backgrounds.
Biomedical materials. --- Tissue engineering. --- Biomedical engineering --- Regenerative medicine --- Tissue culture --- Bioartificial materials --- Biocompatible materials --- Biomaterials (Biomedical materials) --- Hemocompatible materials --- Medical materials --- Medicine --- Materials --- Biocompatibility --- Prosthesis
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Biomedical materials. --- Green chemistry. --- Biomedical materials --- Research. --- Environmental chemistry --- Sustainable chemistry --- Chemical engineering --- Chemistry, Technical --- Sustainable engineering --- Bioartificial materials --- Biocompatible materials --- Biomaterials (Biomedical materials) --- Hemocompatible materials --- Medical materials --- Medicine --- Biomedical engineering --- Materials --- Biocompatibility --- Prosthesis --- Industrial applications
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Principles of Biomaterials Encapsulation: Volume One, provides an expansive and in-depth resource covering the key principles, biomaterials, strategies and techniques for encapsulation. Volume One begins with an introduction to encapsulation, with subsequent chapters dedicated to a broad range of encapsulation principles and techniques, including spray chilling and cooling, microemulsion, polymerization, extrusion, cell microencapsulation and much more. This book methodically details each technique, assessing the advantages and disadvantages of each, allowing the reader to make an informed decision when using encapsulation in their research. Principles of Biomaterials Encapsulation: Volume One enables readers to learn about the various strategies and techniques available for encapsulation of a wide selection of biomedical substrates, such as drugs, cells, hormones, growth factors and so on. Written and edited by well-versed materials scientists with extensive clinical, biomedical and regenerative medicine experience, this book offers a deeply interdisciplinary look at encapsulation in translational medicine. As such, this book will provide a useful resource to a broad readership, including those working in the fields of materials science, biomedical engineering, regenerative and translational medicine, pharmacology, chemical engineering and nutritional science. Details the various biomaterials available for encapsulation, as well as advantages and disadvantages of conventional and contemporary biomaterials for encapsulations Describes a broad range of applications in regenerative medicine, uniquely bringing encapsulation into the worlds of translational medicine and tissue engineering Written and edited by well-versed materials scientists with extensive clinical, biomedical and regenerative medicine experience, offering an interdisciplinary approach.
Microencapsulation. --- Biomedical materials. --- Bioartificial materials --- Biocompatible materials --- Biomaterials (Biomedical materials) --- Hemocompatible materials --- Medical materials --- Medicine --- Biomedical engineering --- Materials --- Biocompatibility --- Prosthesis --- Encapsulation, Particle --- Particle encapsulation --- Packaging --- Capsules --- Drug Delivery Systems --- Drug Compounding --- methods
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