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Chitosan-based nanocomposite materials : fabrication, characterization and biomedical applications
Discovery in the use of chitosan-based nanocomposites in biomedical applications, including the scope to which these novel materials have been incorporated by the community. It provides an exceptional insight into the strategies for the synthesis and chemical modifications of chitosan, characterization techniques, their use as anticancer agents, antimicrobial, antiviral, and antifungal agents, their role in the biomedical field, and applications in drug delivery, gene therapy, dentistry, orthopedics, etc. This book will also emphasize the challenges with previous signs of progress and way for further research, details relating to the current pioneering technology, and future perspectives with a multidisciplinary approach. Furthermore, it presents up-to-date information on the economics, toxicity, and regulations related to these novel materials.
Cell Engineering : Apoptosis
A reference on the development of cellular systems for the production of recombinant glycoproteins, gene and cell therapies, drug screening and tissue engineering. It intends to review the in-depth assessments of this type of programmed cell death. It is suitable for biotechnologists and researchers in apoptosis, cell biology, and cell culture.
Cardiovascular Regeneration Therapies Using Tissue Engineering Approaches
The cardiovascular system transports oxygen and nutrients to all parts of the body; therefore, any impediment to this system through, for example, a circulatory disorder, represents a serious threat to organs, tissues, and cells. Obstructive diseases of vessels with a diameter of more than 1 mm can be treated by conventional surgical and interventional approaches; however, blockages in small vessels with a diameter of less than 1 mm cannot be treated by conventional methods. As a consequence, therapeutic ang- genesis and vasculogenesis for the treatment of ischemic diseases have been widely studied in the last decade. These methods may contribute to the re pair of intractable cardiovascular diseases with a main vascular involvement in the body's smallest vessels. In this book, Hikaru Matsuda and I have tried to summarize recent Japanese developments in the field of cardiovascular regeneration therapies using tissue engineering.
Bone and Cartilage Engineering
Bone and Cartilage Engineering presents the theory and practice of cell-based regeneration of skeletal defects. Much of the focus is on the importance of the cell biological and biomaterial aspects for engineering a clinically relevant device. The basic key techniques for optimal engineering outcomes including cell and organ culture, biomaterial development, and bioreactor use are described in detail and highlighted by multiple figures.
Bioreactors for Tissue Engineering : Principles, Design and Operation
This volume addresses the issue of mechanical conditioning of the tissue, and describes the use of techniques such as MRI for monitoring tissue growth. It also deals with the application of bioreactor technology to tissue engineering products.
Biomaterials : An Introduction
Biomaterials, an Introduction is intended as a general introduction to the uses of artificial materials in the human body for the purposes of aiding healing, correcting deformities, and restoring lost function. Enhancing on the field developments since the successful last edition, Biomaterials, an Introduction continues in its tradition as an outgrowth of an undergraduate course for senior students in biomedical engineering developed by the authors With 60 years of combined experience, the authors have emphasized the fundamental materials science, structure-property relationships and biological responses as a foundation for a wide array of biomaterials applications.
Applications of cell immobilisation biotechnology
Cell Immobilisation Biotechnology" is divided into the two book volumes, FOBI 8A and FOBI 8B. The FOBI 8A volume, Fundamentals of Cell Immobilisation Biotechnology, is dedicated to fundamental aspects of cell immobilisation while the present volume, FOBI 8B, Applications of Cell Immobilisation Biotechnology, deals with diverse applications of this technology.
Biocompatible nanocomposites : From synthesis to applications
Presents a focused overview of biocompatible nanocomposites, emphasizing recent advancements in material design, synthesis techniques, and their expanding applications in biomedicine. It spans key areas such as regenerative medicine, drug delivery, cancer therapy, biosensing, diagnostic imaging, and vaccine delivery —illustrating how these materials are transforming modern healthcare. The book reviews widely used biomaterials including polycaprolactone, bioactive ceramics, and polymer-based hybrids, discussing their roles in cardiovascular, orthopedic, dental, maxillofacial, and ophthalmic applications.
Applications of biomedical engineering in dentistry
Applications of Biomedical Engineering in Dentistry offers readers a valuable overview of recent advances in biomedical engineering, as applied to the modern dentistry.
Advances in gingival diseases and conditions
Offers a comprehensive overview of the latest research and clinical innovations in periodontology. Divided into two sections, the book explores the etiology, clinical aspects, and diagnosis of gingival diseases, including biomarkers, metalloproteinases, and the impact of stress. The second section presents cutting-edge treatments, from curcumin therapy and muco-gingival surgery to guided tissue engineering and peri-implant disease management.
Advances in dental implantology using nanomaterials and allied technology applications
Discusses how nanotechnology has influenced the provision of implant treatment from surgery to prosthetic reconstruction and post treatment biological complications. It aims to present both the nanotechnology and allied research along with the clinical concepts of almost every different aspect of implantology in one volume.
Advancements and Innovations in OMFS, ENT, and Facial Plastic Surgery
Covers updated practices and cutting-edge innovations pertinent to advanced Oral & Maxillofacial Surgeons, Otolaryngologists (Head and Neck Surgeons), and Facial Plastic Surgeons. Each chapter will review and update the reader on advancements in procedures and technologies in head and neck surgery.
Advanced materials for oral application
Consists of one editorial, 12 original research articles and two review papers from scientists across the world, with expertise in materials for dental application. The main subjects covered are: biomaterials and techniques for oral tissue engineering and regeneration; biomaterials for surgical reconstruction; CAD/CAM technologies and dedicated materials; novel restorative and endodontic materials and instruments.
Advanced bioceramics : Properties, processing, and applications
Offers a comprehensive view of properties and processing of bioceramics. Highlights applications in dentistry, orthopaedic and maxillofacial implants, and regenerative and tissue engineering. Covers ISO/ASTM specifications such as processing, clinical applications, recycling/reuse and disposal standards.
3D printing in oral & maxillofacial surgery
A comprehensive guide to 3D printing and 3D bioprinting methods and their application in oral and maxillofacial surgeries. Among the 3D printing methods considered are fused deposition modeling, selective laser sintering, photopolymer jetting, powder binder printing, and stereolithography, while the coverage of 3D bioprinting encompasses inkjet, microextrusion, and laser techniques. In each case, the relevance of the technique to oral and maxillofacial surgery is explained. In addition, the available inks and bioinks for 3D printing are reviewed. The roles of soft and hard tissue printing in oral and maxillofacial tissue engineering and the use of 3D printing in multi- and interfacial tissue engineering are then examined in depth. The particular value of 3D printing in the treatment of critically sized defects is discussed separately. Finally, up-to-date information is provided on guided tissue/bone regeneration using 3D printing. The book will be of interest to both oral and maxillofacial surgeons and biomedical engineers.
Cell Separation : Fundamentals, Analytical and Preparative Methods
This special volume on cell separations discusses fundamental and applied aspects of the analytical and preparative cell-separation technologies. The aim is to enlighten the reader with the new developments in cell-separation technologies and at the same time provide sufficient knowledge with other existing and more commonly used techniques. The volume is comprised of contributions from subject experts from both academia and industry, focuses on the research and commercial aspects of cell-separation technology, and provides readers with broader choice. Unlike protein separation, the major challenge in cell separation has been the recovery of the cells in viable form after they are bound to the separation matrix, as cells bind more strongly through multipoint attachment. This is an important focus of the present work and one we believe will provide new insight to researchers in this field
Brain-computer interfaces : An international sssessment of research and development trends
This WTEC study gathered information on worldwide status and trends in BCI research to disseminate to government decisionmakers and the research community. The study reviewed and assessed the state of the art in sensor technology, the biotic-abiotic interface and biocompatibility, data analysis and modeling, hardware implementation, systems engineering, functional electrical stimulation, noninvasive communication systems, and cognitive and emotional neuroprostheses in academic research and industry.
Bone Morphogenetic Proteins : From Local to Systemic Therapeutics
Tissue engineering is gaining interest as it is applied for regeneration of organs to attain their lost function. Although resorbable scaffolds and progenitor cell types are required principles to engineer a functional tissue locally, the inductive signal is a prerequisite to trigger the growth and differentiation of responding cells in space and time. Bone morphogenetic proteins (BMPs), also called growth and differentiation factors (GDFs), originally identified from bone have been successfully used to regenerate the bone in humans. Most recent preclinical data suggests that BMPs have a potential to provide protection against inflammation and fibrosis in acute and chronic injury of parenchymal tissues when applied systemically to sustain the function of kidney and liver. The application of BMPs from a local to systemic utility is a rapidly growing field, gaining interest among researchers and biotech entrepreneurs.
BioMEMS and biomedical nanotechnology ; Vol. III : Therapeutic Micro/Nanotechnology
The human body is composed of structures organized in a hierarchical fashion: from biomolecules assembled into polymers, to multimeric assemblies such as cellular or-ganelles, to individual cells, to tissues, to organ systems working together in health and disease- each dominated by a characteristic length scale. Decades of science and engineer-ing are now converging to provide tools that enable the orderly manipulation of biological systems at previously inaccessible, though critically important, length scales (<100 mi-crons). Thus, the approaches described in this volume provide a snapshot of how micro-and nanotechnologies can enable the investigation, prevention, and treatment of human disease.The volume is divided into three parts. The first part, Cell-based therapeutics; cov- ers the merger of cells with micro- and anosystems for applications in regenerative medicine spanning the development of novel nanobiomaterials.
Bio-Materials & Prototyping Applications in Medicine
Bio-Materials and Prototyping Applications in Medicine focuses on bio-materials and prototyping applications in medical environments. The applications that ardiscussed integrate bio-materials, CAD, and physical prototyping techniques.
