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Biomedical engineering is one of the most prominent and rapidly developing engineering fields. It is a discipline that is involved in the development of devices, algorithms, processes, procedures and systems to enhance and improve the medical field. Biomedical engineering has multiple areas of specialization that include: biomechanics, biomaterials, tissue engineering, imaging, and bioinstrumentation. This book serves as a guide to students and professionals seeking to understand commonly used technical terms and phrases in the biomedical engineering field. The content is specifically designed to define technical terms in a general context to facilitate an overall understanding. The author begins by translating terms in English to Arabic then Arabic to English. This text can be used as a tool in the academic or professional environment for both English speaking and non-English speaking individuals alike.
Do you want to know what inherited defect causes thalassaemia? Do you understand the significance of "resistance" when applied to microbiology? Can you say what a "frozen section" really is? The Dictionary of Biomedical Sciences answers all these questions and more. This informative, practical guide contains over 8000 entries that define all the ba
This dictionary contains thousands of definitions from various related disciplines and minimizes the need for several dictionaries. The book defines everything from AAMI (Association for the Advancement of Medical Instrumentation) to zymogen (proenzyme). The editor, an internationally recognized expert in the area of biomaterials, has combined knowledge from the fields of medicine, pharmacology, physiology, polymer chemistry, biochemistry, metallurgy, and organic chemistry.
A Dictionary of Mechanical Engineering is one of the latest additions to the market leading Oxford Paperback Reference series. In over 8,500 clear and concise A to Z entries, it provides definitions and explanations for mechanical engineering terms in the core areas of design, stress analysis, dynamics and vibrations, thermodynamics, and fluid mechanics. Topics covered include heat transfer, combustion, control, lubrication, robotics, instrumentation, and measurement. Where relevant, the dictionary also touches on related subject areas such as acoustics, bioengineering, chemical engineering, civil engineering, aeronautical engineering, environmental engineering, and materials science. Useful entry-level web links are listed and regularly updated on a dedicated companion website to expand the coverage of the dictionary. Cross-referenced and including many line drawings, this excellent new volume is the most comprehensive and authoritative dictionary of its kind. It is an essential reference for students of mechanical engineering and for anyone with an interest in the subject.
Contains entries on all areas of biomedicine, the study of molecular bioscience relating to disease. Includes terms from the related areas of anatomy, genetics, molecular bioscience, pathology, pharmacology, and clinical medicine.
Complete coverage of all fields of electrical engineering. The book provides workable definitions for practicing engineers, while serving as a reference and research tool for students, and offering practical information for scientists and engineers in other disciplines. Areas examined include applied electrical, microwave, control, power, and digital systems engineering, plus device electronics.
The second edition of this popular introductory undergraduate textbook uses examples, applications, and profiles of biomedical engineers to show students the relevance of the theory and how it can be used to solve real problems in human medicine. The essential molecular biology, cellular biology, and human physiology background is included for students to understand the context in which biomedical engineers work. Updates throughout highlight important advances made over recent years, including iPS cells, microRNA, nanomedicine, imaging technology, biosensors, and drug delivery systems, giving students a modern description of the various subfields of biomedical engineering. Over two hundred quantitative and qualitative exercises, many new to this edition, help consolidate learning, whilst a solutions manual, password-protected for instructors, is available online. Finally, students can enjoy an expanded set of leader profiles in biomedical engineering within the book, showcasing the broad range of career paths open to students who make biomedical engineering their calling.
There has been a rapid expansion of activity in the area of biomaterials and related medical devices, both in scientific terms and in clinical and commercial applications. The definition of terms has failed to keep pace with the rapidity of these developments and there is considerable confusion over the terminology used in this highly multi- and inter-disciplinary area. This confusion has arisen partly from the use of inappropriate terms which already have well-defined meanings in their parent disciplines, but which are used inexpertly by those working in other disciplines, and partly from the haphazard generation of new terms for the purpose of defining new phenomena or devices. For example, many terms used in pathology with distinct, if not readily understood, meanings are used by materials scientists to describe biocompatibility phenomena with slightly changed or even wholly misrepresented meanings; similarly, terms from materials science and engineering are seriously misused by biologists and clinicians working in this field. The leading proponent of harmonization and clarity in medical device terminology, Professor D. F. Williams has been influential in setting the standard for the accurate definition of some of the terms used. In particular, the definition of biocompatibility, ‘the Williams definition’, agreed at a 1987 conference has been adopted worldwide. Now, in association with O’Donnell and Associates of Brussels, he has prepared The Williams Dictionary to provide a definitive exposition of the meaning of the terminology used in the area of biomaterials and medical devices. It includes definitions and explanations of more than 2,000 terms from many areas, including biomaterials and medical devices, materials science, biological sciences, and clinical medicine and surgery.
Data Analytics in Biomedical Engineering and Healthcare explores key applications using data analytics, machine learning, and deep learning in health sciences and biomedical data. The book is useful for those working with big data analytics in biomedical research, medical industries, and medical research scientists. The book covers health analytics, data science, and machine and deep learning applications for biomedical data, covering areas such as predictive health analysis, electronic health records, medical image analysis, computational drug discovery, and genome structure prediction using predictive modeling. Case studies demonstrate big data applications in healthcare using the MapReduce and Hadoop frameworks. - Examines the development and application of data analytics applications in biomedical data - Presents innovative classification and regression models for predicting various diseases - Discusses genome structure prediction using predictive modeling - Shows readers how to develop clinical decision support systems - Shows researchers and specialists how to use hybrid learning for better medical diagnosis, including case studies of healthcare applications using the MapReduce and Hadoop frameworks
Dictionary of Automotive Engineering provides a definition of terms used in automotive engineering. The coverage of the dictionary includes words, terms, and slangs that have an automotive connotation. The book also provides illustrations to help clarify some meaning. The text will be of great use to both novice and experienced automotive engineers.