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Over the last century, medicine has come out of the "black bag" and emerged as one of the most dynamic and advanced fields of development in science and technology. Today, biomedical engineering plays a critical role in patient diagnosis, care, and rehabilitation. As such, the field encompasses a wide range of disciplines, from biology and physiology to material science and nanotechnology. Reflecting the enormous growth and change in biomedical engineering during the infancy of the 21st century, The Biomedical Engineering Handbook enters its third edition as a set of three carefully focused and conveniently organized books. Reviewing applications at the leading edge of modern biomedical engineering, Tissue Engineering and Artificial Organs explores transport phenomena, biomimetics systems, biotechnology, prostheses, artificial organs, and ethical issues. The book features approximately 90% new material in the tissue engineering section, integrates coverage of life sciences with a new section on molecular biology, and includes a new section on bionanotechnology. Prominent leaders from around the world share their expertise in their respective fields with many new and updated chapters. New technologies and methods spawned by biomedical engineering have the potential to improve the quality of life for everyone, and Tissue Engineering and Artificial Organs sheds light on the tools that will enable these advances.
A short decade ago, The Biomedical Engineering Handbook debuted and was quickly embraced as the biomedical engineer’s “Bible.” Four years later, the field had grown so dramatically that the handbook was offered in two volumes. Now, the early years of the new millennium have seen so much growth and change in the biomedical field that a new, larger, and broader resource is necessary. In its most versatile incarnation yet, this Third Edition is available as a set of three carefully organized and focused volumes that, when combined, maintain the handbook’s standing as the most comprehensive, interdisciplinary, and timely biomedical reference available. What’s included in the Third Edition? Biomedical Engineering Fundamentals This first volume surveys physiology, bioelectric phenomena, biomaterials, biomechanics, and the other broad disciplines that constitute the modern biomedical engineering landscape. It includes an entirely new section on neuroengineering in addition to many new and revised chapters and a 14-page full-color insert. Medical Devices and Systems Offering an overview of the tools of the biomedical engineering trade, this book focuses on signal analysis, imaging, sensors, devices, systems, instruments, and clinical engineering. It includes two new sections on infrared imaging and medical informatics, numerous other additions and updates, and a 32-page full-color insert. Tissue Engineering and Artificial Organs The third installment examines state-of-the-art applications of biomedical engineering. Integrating life sciences as another facet of the field, it includes a new section on molecular biology. The book also features a new section on bionanotechnology, 90 percent new material in the tissue engineering section, many new and updated chapters, and a 24-page full-color insert. Incorporating new developments, technologies, and disciplines, The Biomedical Engineering Handbook, Third Edition remains the most comprehensive central core of knowledge available to the field.
Maintaining quality of life in an ageing population is one of the great challenges of the 21st Century. This book summarises how this challenge is being met by multi-disciplinary developments of specialty biomaterials, devices, artificial organs and in-vitro growth of human cells as tissue engineered constructs. Biomaterials, Artificial Organs and Tissue Engineering is intended for use as a textbook in a one semester course for upper level BS, MS and Meng students. The 25 chapters are organized in five parts: Part one provides an introduction to living and man-made materials for the non-specialist; Part two is an overview of clinical applications of various biomaterials and devices; Part three summarises the bioengineering principles, materials and designs used in artificial organs; Part four presents the concepts, cell techniques, scaffold materials and applications of tissue engineering; Part five provides an overview of the complex socio-economic factors involved in technology based healthcare, including regulatory controls, technology transfer processes and ethical issues. Comprehensive introduction to living and man-made materials Looks at clinical applications of various biomaterials and devices Bioengineering principles, materials and designs used in artificial organs are summarised
The Biomedical Engineering Handbook contains comprehensive information on every aspect of biomedical engineering. This singular text reflects the current perception of the field, encompassing emerging and expanding disciplines of investigation and application. It includes a complete review of the major physiological systems and presents current and accepted practices involving bioelectric phenomena, biomechanics, biomaterials, biosensors, biomedical signal analysis, imaging, medical instruments and devices, biological effects of nonionizing electromagnetic fields, biotechnology, tissue engineering, prostheses and artificial organs, rehabilitation engineering, human performance engineering, physiological modeling, clinical engineering, medical informatics, and artificial intelligence. The Biomedical Engineering Handbook, an indispensable source of information about the design, developments, and use of medical technology to diagnose and treat patients, serves engineers, medical device and instrumentation manufacturers, and biomedical engineering faculty members and academic departments.
A short decade ago, The Biomedical Engineering Handbook debuted and was quickly embraced as the biomedical engineer’s “Bible.” Four years later, the field had grown so dramatically that the handbook was offered in two volumes. Now, the early years of the new millennium have seen so much growth and change in the biomedical field that a new, larger, and broader resource is necessary. In its most versatile incarnation yet, this Third Edition is available as a set of three carefully organized and focused volumes that, when combined, maintain the handbook’s standing as the most comprehensive, interdisciplinary, and timely biomedical reference available. What’s included in the Third Edition? Biomedical Engineering Fundamentals This first volume surveys physiology, bioelectric phenomena, biomaterials, biomechanics, and the other broad disciplines that constitute the modern biomedical engineering landscape. It includes an entirely new section on neuroengineering in addition to many new and revised chapters and a 14-page full-color insert. Medical Devices and Systems Offering an overview of the tools of the biomedical engineering trade, this book focuses on signal analysis, imaging, sensors, devices, systems, instruments, and clinical engineering. It includes two new sections on infrared imaging and medical informatics, numerous other additions and updates, and a 32-page full-color insert. Tissue Engineering and Artificial Organs The third installment examines state-of-the-art applications of biomedical engineering. Integrating life sciences as another facet of the field, it includes a new section on molecular biology. The book also features a new section on bionanotechnology, 90 percent new material in the tissue engineering section, many new and updated chapters, and a 24-page full-color insert. Incorporating new developments, technologies, and disciplines, The Biomedical Engineering Handbook, Third Edition remains the most comprehensive central core of knowledge available to the field.
A comprehensive overview of the latest achievements, trends, and the current state of the art of this important and rapidly expanding field. Clearly and logically structured, the first part of the book explores the fundamentals of tissue engineering, providing a separate chapter on each of the basic topics, including biomaterials stem cells, biosensors and bioreactors. The second part then follows a more applied approach, discussing various applications of tissue engineering, such as the replacement or repairing of skins, cartilages, livers and blood vessels, to trachea, lungs and cardiac tissues, to musculoskeletal tissue engineering used for bones and ligaments as well as pancreas, kidney and neural tissue engineering for the brain. The book concludes with a look at future technological advances. An invaluable reading for entrants to the field in biomedical engineering as well as expert researchers and developers in industry.
Over the last century, medicine has come out of the "black bag" and emerged as one of the most dynamic and advanced fields of development in science and technology. Today, biomedical engineering plays a critical role in patient diagnosis, care, and rehabilitation. As such, the field encompasses a wide range of disciplines, from biology and physiology to material science and nanotechnology. Reflecting the enormous growth and change in biomedical engineering during the infancy of the 21st century, The Biomedical Engineering Handbook enters its third edition as a set of three carefully focused and conveniently organized books. Reviewing applications at the leading edge of modern biomedical engineering, Tissue Engineering and Artificial Organs explores transport phenomena, biomimetics systems, biotechnology, prostheses, artificial organs, and ethical issues. The book features approximately 90% new material in the tissue engineering section, integrates coverage of life sciences with a new section on molecular biology, and includes a new section on bionanotechnology. Prominent leaders from around the world share their expertise in their respective fields with many new and updated chapters. New technologies and methods spawned by biomedical engineering have the potential to improve the quality of life for everyone, and Tissue Engineering and Artificial Organs sheds light on the tools that will enable these advances.