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Photonics is a term often used in relation to light-based circuits, but it is actually more inclusive, including the generation, emission, transmission, modulation and signal processing of light. Biophotonics is therefore a term which can be used to describe the development and application of optical techniques for the study of biological molecules, cells and tissues.This book presents some of the most promising new image-based and related technologies which have evolved in the last few years for the study, visualization, characterisation and analysis of abnormal cells and tissues, and discusses their current and potential applications in experimental pathology and clinical pathological diagnosis. The book contains more than a dozen papers contributed by experts in the field, and the technology is described in a manner accessible to an audience of pathologists, cell biologists and biochemists as well as biomedical engineers.Subjects covered include: advanced methods in fluorescence microscopy, automated image interpretation and computer-assisted diagnostics, magnetic resonance microscopy, impedence measurements in the biomedical sciences and raman scattering in pathology, among others.There is an increasing convergence of radiology and pathology, and although this book has been written from the perspective of pathology, it demonstrates a confluence of methodologies similar to those applied in radiology with morphological analysis at the cellular and tissue level, and will also be of interest to radiologists, as well as to other scientists and engineers working in overlapping areas.
This lecture volume aims to give students and researchers in this rapidly expanding field of biophotonics an interdisciplinary perspective. Among the primary topics are ultrahigh resolution microscopy, particle tracking, photon correlation spectroscopy, and nonlinear optical methods as used in biological and biomedical research, with a focus on current applications in biophysics and biomedicine.
The result of a unique collaboration between clinicians, chemists and physicists, this book provides an unparalleled overview of a new generation of diagnostic tools in clinical pathology. The introductory chapters cover the present status and limitations of currently used methods, followed by an outline of promising novel spectroscopy-based technologies either under development or recently available on the market. The input from both technologists developing these new methods as well as routine clinicians familiar with practical aspects and medical relevance guarantees that this practical work is a valuable asset for a wide audience, including technical personnel and decision makers in treatment centers, experts working in companies developing diagnostic devices, and clinicians specializing in advanced diagnostic methods. Since basic researchers are increasingly adopting novel diagnostic tools developed for human use as well, this will also be of interest for biomedical research institutions with large animal facilities.
This book introduces senior-level and postgraduate students to the principles and applications of biophotonics. It also serves as a valuable reference resource or as a short-course textbook for practicing physicians, clinicians, biomedical researchers, healthcare professionals, and biomedical engineers and technicians dealing with the design, development, and application of photonics components and instrumentation to biophotonics issues. The topics include the fundamentals of optics and photonics, the optical properties of biological tissues, light-tissue interactions, microscopy for visualizing tissue components, spectroscopy for optically analyzing the properties of tissue, and optical biomedical imaging. It also describes tools and techniques such as laser and LED optical sources, photodetectors, optical fibers, bioluminescent probes for labeling cells, optical-based biosensors, surface plasmon resonance, and lab-on-a-chip technologies. Among the applications are optical coherence tomography (OCT), optical imaging modalities, photodynamic therapy (PDT), photobiostimulation or low-level light therapy (LLLT), diverse microscopic and spectroscopic techniques, tissue characterization, laser tissue ablation, optical trapping, and optogenetics. Worked examples further explain the material and how it can be applied to practical designs, and the homework problems help test readers’ understanding of the text. This second edition provides updates as follows: 1) Updated references in each chapter with recent review papers, tutorials, and generic research results. 2) New sections in Chap. 3 addressing tapered fibers for sensors, biocompatibility issues of optical fibers, and concepts of implantable fibers. 3) Updates in Chaps. 4 and 5 on optical sources and photodetectors discussing fiber-based sources, silicon photomultipliers, and high-speed cameras for biosensing. 4): Sections on improvements in microscopy, imaging, spectroscopy, and sensing in Chapters 7–10. 5) New biophotonic application techniques in Chap. 11 will include optogenetic advances, smart phones for imaging, wearable biophotonic sensors, and robotic surgery and light therapy.
Ensuring patient safety and providing high-quality health services are the dominant challenges faced by healthcare systems around the world today. The sharing of advanced knowledge and best practice in diagnosis, therapy, process optimization and prevention are essential to achieve this goal; this includes enhanced networking socially and technologically as well as the inclusion of public health and social sciences.This book contains the proceedings of the 13th European Federation for Medical Informatics (EFMI) Special Topic Conference (STC), held in Prague, Czech Republic, in April 2013. The EFMI STC 2013 is Europe's leading forum for presenting the results of current scientific work in health informatics processes, systems and technologies this year. The title of this 13th conference is Data and Knowledge for Medical Decision Support, and the conference addresses this important field, linking traditional and translational medicine with natural sciences and technology with a view to the design, implementation and deployment of intelligent systems which will meet the expectations of developers and users such as health professionals and patients.Within this context, the authors included here address the important issues of knowledge representation and management, appropriate terminologies and ontologies, the development of reasoning engines, and the modeling and simulation of real systems for decision making. The hot topics of "Big Data" and "Analytics" also receive attention.
Biosynthetic Polymers for Medical Applications provides the latest information on biopolymers, the polymers that have been produced from living organisms and are biodegradable in nature. These advanced materials are becoming increasingly important for medical applications due to their favorable properties, such as degradability and biocompatibility. This important book provides readers with a thorough review of the fundamentals of biosynthetic polymers and their applications. Part One covers the fundamentals of biosynthetic polymers for medical applications, while Part Two explores biosynthetic polymer coatings and surface modification. Subsequent sections discuss biosynthetic polymers for tissue engineering applications and how to conduct polymers for medical applications. - Comprehensively covers all major medical applications of biosynthetic polymers - Provides an overview of non-degradable and biodegradable biosynthetic polymers and their medical uses - Presents a specific focus on coatings and surface modifications, biosynthetic hydrogels, particulate systems for gene and drug delivery, and conjugated conducting polymers
Bioinspired Materials for Medical Applications examines the inspiration of natural materials and their interpretation as modern biomaterials. With a strong focus on therapeutic and diagnostic applications, the book also examines the development and manipulation of bioinspired materials in regenerative medicine. The first set of chapters is heavily focused on bioinspired solutions for the delivery of drugs and therapeutics that also offer information on the fundamentals of these materials. Chapters in part two concentrate on bioinspired materials for diagnosis applications with a wide coverage of sensor and imaging systems With a broad coverage of the applications of bioinspired biomaterials, this book is a valuable resource for biomaterials researchers, clinicians, and scientists in academia and industry, and all those who wish to broaden their knowledge in the allied field. - Explores how materials designed and produced with inspiration from nature can be used to enhance man-made biomaterials and medical devices - Brings together the two fields of biomaterials and bioinspired materials - Written by a world-class team of research scientists, engineers, and clinicians
New Functional Biomaterials for Medicine and Healthcare provides a concise summary of the latest developments in key types of biomaterials. The book begins with an overview of the use of biomaterials in contemporary healthcare and the process of developing novel biomaterials; the key issues and challenges associated with the design of complex implantable systems are also highlighted. The book then reviews the main materials used in functional biomaterials, particularly their properties and applications. Individual chapters focus on both natural and synthetic polymers, metallic biomaterials, and bio-inert and bioactive ceramics. Advances in processing technologies and our understanding of materials and their properties have made it possible for scientists and engineers to develop more sophisticated biomaterials with more targeted functionality. New Functional Biomaterials for Medicine and Healthcare provides an ideal one-volume summary of this important field that represents essential reading for scientists, engineers, and clinicians, and a useful reference text for undergraduate and postgraduate students. - Provides a concise summary of the latest developments in key types of biomaterials - Highlights key issues and challenges associated with the design of complex implantable systems - Chapters focus on both natural and synthetic polymers, metallic biomaterials, and bio-inert and bioactive ceramics
Extracellular Matrix-Derived Implants in Clinical Medicine comprehensively covers the emergence of tissue engineering and regenerative medicine over the past few decades, along with discussions of continuous funding and research. The book provides a state-of-the-art review of this increasingly important technology and how it is translating from bench to bedside. Part One of the book looks at the historical use of human and animal tissues, focusing on the main application areas, including cardiovascular, hard and soft tissue engineering, and neurological, while Part Two examines the challenges in harvesting, processing, and manufacturing of extracellular matrices, with a final section reviewing the international regulatory environment and economics of tissue-based products. - Addresses issues of tissue engineering and regenerative medicine from a biomaterials industry perspective - Looks at the historical use of human and animal tissues, focusing on the main application areas, including cardiovascular, hard and soft tissue engineering, and neurological - Examines the challenges in harvesting, processing, and manufacturing of extracellular matrices - Reviews the international regulatory environment and economics of tissue-based products
Medical Biosensors for Point of Care (POC) Applications discusses advances in this important and emerging field which has the potential to transform patient diagnosis and care. Part 1 covers the fundamentals of medical biosensors for point-of-care applications. Chapters in part 2 go on to look at materials and fabrication of medical biosensors while the next part looks at different technologies and operational techniques. The final set of chapters provide an overview of the current applications of this technology. Traditionally medical diagnostics have been dependent on sophisticated technologies which only trained professionals were able to operate. Recent research has focused on creating point-of-care diagnostic tools. These biosensors are miniaturised, portable, and are designed to be used at the point-of-care by untrained individuals, providing real-time and remote health monitoring. - Provides essential knowledge for designers and manufacturers of biosensors for point-of-care applications - Provides comprehensive coverage of the fundamentals, materials, technologies, and applications of medical biosensors for point-of-care applications - Includes contributions from leading international researchers with extensive experience in developing medical biosensors - Discusses advances in this important and emerging field which has the potential to transform patient diagnosis and care