Biomedical Device Technology
Biomedical Device Technology

Author: Anthony Y. K. Chan

Publisher: Charles C. Thomas Publisher

Published: 2008

Total Pages: 606

ISBN-13:

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"In order to design, build, maintain and effectively deploy medical devices, one needs to understand not only their design and construction but also how they interact with the human body. This book provides a comprehensive approach to studying the principles and design of biomedical devices as well as their applications in medicine. It is written for engineers and technologists who are interested in understanding the principles, design and applications of medical device technology. The book is also intended to be used as a textbook or reference for biomedical device technology courses in universities and colleges."--BOOK JACKET.

Biomedical Technology and Devices
Biomedical Technology and Devices

Author: James E. Moore Jr

Publisher: CRC Press

Published: 2013-06-25

Total Pages: 791

ISBN-13: 1439860610

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Biomedical Technology and Devices, Second Edition focuses on the equipment, devices, and techniques used in modern medicine to diagnose, treat, and monitor human illnesses. Gathering together and compiling the latest information available on medical technology, this revised work adds ten new chapters. It starts with the basics, introducing the hist

Medical Device Technologies
Medical Device Technologies

Author: Gail D. Baura

Publisher: Academic Press

Published: 2011-10-07

Total Pages: 529

ISBN-13: 012374976X

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Medical Device Technologies introduces undergraduate engineering students to commonly manufactured medical devices. It is the first textbook that discusses both electrical and mechanical medical devices. The first 20 chapters are medical device technology chapters; the remaining eight chapters focus on medical device laboratory experiments. Each medical device chapter begins with an exposition of appropriate physiology, mathematical modeling or biocompatibility issues, and clinical need. A device system description and system diagram provide details on technology function and administration of diagnosis and/or therapy. The systems approach lets students quickly identify the relationships between devices. Device key features are based on five applicable consensus standard requirements from organizations such as ISO and the Association for the Advancement of Medical Instrumentation (AAMI). The medical devices discussed are Nobel Prize or Lasker Clinical Prize winners, vital signs devices, and devices in high industry growth areas Three significant Food and Drug Administration (FDA) recall case studies which have impacted FDA medical device regulation are included in appropriate device chapters Exercises at the end of each chapter include traditional homework problems, analysis exercises, and four questions from assigned primary literature Eight laboratory experiments are detailed that provide hands-on reinforcement of device concepts

Developing Biomedical Devices
Developing Biomedical Devices

Author: Giuseppe Andreoni

Publisher: Springer Science & Business Media

Published: 2013-09-24

Total Pages: 90

ISBN-13: 331901207X

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During the past two decades incredible progress has been achieved in the instruments and devices used in the biomedical field. This progress stems from continuous scientific research that has taken advantage of many findings and advances in technology made available by universities and industry. Innovation is the key word and in this context legal protection and intellectual property rights (IPR) are of crucial importance. This book provides students and practitioners with the fundamentals for designing biomedical devices and explains basic design principles. Furthermore, as an aid to the development of devices and products for healthcare, it presents a brief description of the human body, covering anatomy and physiology, that will assist the reader in understanding the origin of biosignals, their significance and the technology to be used in their measurement. Issues concerning IPR and protections are also fully discussed, with examples and opportunities for IPR exploitation.

Medical Device Technologies
Medical Device Technologies

Author: Gail Baura

Publisher: Academic Press

Published: 2011-09-28

Total Pages: 529

ISBN-13: 0080961126

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Medical Device Technologies introduces undergraduate engineering students to commonly manufactured medical devices. It is the first textbook that discusses both electrical and mechanical medical devices. The first 20 chapters are medical device technology chapters; the remaining eight chapters focus on medical device laboratory experiments. Each medical device chapter begins with an exposition of appropriate physiology, mathematical modeling or biocompatibility issues, and clinical need. A device system description and system diagram provide details on technology function and administration of diagnosis and/or therapy. The systems approach lets students quickly identify the relationships between devices. Device key features are based on five applicable consensus standard requirements from organizations such as ISO and the Association for the Advancement of Medical Instrumentation (AAMI). The medical devices discussed are Nobel Prize or Lasker Clinical Prize winners, vital signs devices, and devices in high industry growth areas Three significant Food and Drug Administration (FDA) recall case studies which have impacted FDA medical device regulation are included in appropriate device chapters Exercises at the end of each chapter include traditional homework problems, analysis exercises, and four questions from assigned primary literature Eight laboratory experiments are detailed that provide hands-on reinforcement of device concepts

Biomedical Technology and Devices Handbook
Biomedical Technology and Devices Handbook

Author: George Zouridakis

Publisher: CRC Press

Published: 2003-08-14

Total Pages: 848

ISBN-13: 9780849311406

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Concise yet comprehensive, the Biomedical Technology and Devices Handbook illuminates the equipment, devices, and techniques used in modern medicine to diagnose, treat, and monitor human illnesses. With topics ranging from the basic procedures like blood pressure measurement to cutting-edge imaging equipment, biological tests, and genetic engineering, this book is organized to navigate smoothly from simple procedures and concepts to the more sophisticated and complex ones. Each section contains a description of the technique, its technical considerations, and its use according to its applications and relevant body systems. The book includes references to relevant Web sites, protocols, problems, and solutions.

Biomedical Information Technology
Biomedical Information Technology

Author: David Dagan Feng

Publisher: Academic Press

Published: 2019-10-22

Total Pages: 820

ISBN-13: 0128160357

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Biomedical Information Technology, Second Edition, contains practical, integrated clinical applications for disease detection, diagnosis, surgery, therapy and biomedical knowledge discovery, including the latest advances in the field, such as biomedical sensors, machine intelligence, artificial intelligence, deep learning in medical imaging, neural networks, natural language processing, large-scale histopathological image analysis, virtual, augmented and mixed reality, neural interfaces, and data analytics and behavioral informatics in modern medicine. The enormous growth in the field of biotechnology necessitates the utilization of information technology for the management, flow and organization of data. All biomedical professionals can benefit from a greater understanding of how data can be efficiently managed and utilized through data compression, modeling, processing, registration, visualization, communication and large-scale biological computing. Presents the world's most recognized authorities who give their "best practices" Provides professionals with the most up-to-date and mission critical tools to evaluate the latest advances in the field Gives new staff the technological fundamentals and updates experienced professionals with the latest practical integrated clinical applications

Commercializing Successful Biomedical Technologies
Commercializing Successful Biomedical Technologies

Author: Shreefal S. Mehta

Publisher: Cambridge University Press

Published: 2008-04-24

Total Pages: 449

ISBN-13: 110739421X

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Successful product design and development requires the ability to take a concept and translate the technology into useful, patentable, commercial products. This book guides the reader through the practical aspects of the commercialization process of drug, diagnostic and device biomedical technology including market analysis, product development, intellectual property and regulatory constraints. Key issues are highlighted at each stage in the process, and case studies are used to provide practical examples. The book will provide a sound road map for those involved in the biotechnology industry to effectively plan the commercialization of profitable regulated medical products. It will also be suitable for a capstone design course in engineering and biotechnology, providing the student with the business acumen skills involved in product development.

Biomedical Device Technology
Biomedical Device Technology

Author: Anthony Y. K. Chan

Publisher:

Published: 2016-06-03

Total Pages:

ISBN-13: 9780398091255

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With this resource, instructors can create custom slide shows and presentations using the 388 illustrations and 53 tables from Biomedical Device Technology: Principles and Design (2nd Ed.). This CD contains all the images, figures and tables included in the textbook in JPG format.

Human resources for medical devices - the role of biomedical engineers
Human resources for medical devices - the role of biomedical engineers

Author: World Health Organization

Publisher: World Health Organization

Published: 2017-05-09

Total Pages: 0

ISBN-13: 9789241565479

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This publication addresses the role of the biomedical engineer in the development, regulation, management, training, and use of medical devices. The first part of the book looks at the biomedical engineering profession globally as part of the health workforce: global numbers and statistics, professional classification, general education and training, professional associations, and the certification process. The second part addresses all of the different roles that the biomedical engineer can have in the life cycle of the technology, from research and development, and innovation, mainly undertaken in academia; the regulation of devices entering the market; and the assessment or evaluation in selecting and prioritizing medical devices (usually at national level); to the role they play in the management of devices from selection and procurement to safe use in healthcare facilities. The annexes present comprehensive information on academic programs, professional societies, and relevant WHO and UN documents related to human resources for health as well as the reclassification proposal for ILO. This publication can be used to encourage the availability, recognition, and increased participation of biomedical engineers as part of the health workforce, particularly following the recent adoption of the recommendations of the UN High-Level Commission on Health Employment and Economic Growth, the WHO Global Strategy on Human Resources for Health, and the establishment of national health workforce accounts. The document also supports the aim of reclassification of the role of the biomedical engineer as a specific engineer that supports the development, access, and use of medical devices within the national, regional, and global occupation classification system.