From Book News, Inc.
Intending their work as a supplement to the existing literature on medical device design, Prutchi and Norris (the vice president of product development and a senior electronics engineer, respectively, for Impulse Dynamics, a Netherlands-based company "focused on the development of electrical therapies for the treatment of heart failure, obesity and diabetes") provide tested examples of medical device projects, along with pertinent background, in order to demonstrate the practical aspects of medical device design and testing. They describe the development of biopotential amplifiers, filtering of biopotential signals, safety considerations in the design of prototypes, international regulations regarding electromagnetic compatibility, physiological "smart" sensors, artificial signal sources, principles and clinical applications of electrical stimulation of excitable tissues, cardiac pacing and defibrillation, and an engineer's perspective on bringing a device to market. The project descriptions assume an understanding of circuit design, electronic prototype construction, and basic physiology.Copyright © 2004 Book News, Inc., Portland, OR
Review
"…details this application's unique requirements and constraints, exploring with general discussion, schematic diagrams, representative waveforms, and typical-design photos." (EDN Online, January 12, 2005)
Review
"…details this application's unique requirements and constraints, exploring with general discussion, schematic diagrams, representative waveforms, and typical-design photos." (EDN Online, January 12, 2005)
Book Description
Design and Development of Medical Electronic Instrumentation fills a gap in the existing medical electronic devices literature by providing background and examples of how medical instrumentation is actually designed and tested. The book includes practical examples and projects, including working schematics, ranging in difficulty from simple biopotential amplifiers to computer-controlled defibrillators. Covering every stage of the development process, the book provides complete coverage of the practical aspects of amplifying, processing, simulating and evoking biopotentials. In addition, two chapters address the issue of safety in the development of electronic medical devices, and providing valuable insider advice.
Download Description
Design and Development of Medical Electronic Instrumentation fills a gap in the existing medical electronic devices literature by providing background and examples of how medical instrumentation is actually designed and tested. The book includes practical examples and projects, including working schematics, ranging in difficulty from simple biopotential amplifiers to computer-controlled defibrillators. Covering every stage of the development process, the book provides complete coverage of the practical aspects of amplifying, processing, simulating and evoking biopotentials. In addition, two chapters address the issue of safety in the development of electronic medical devices, and providing valuable insider advice.--This text refers to the Digital edition.
From the Back Cover
Master the building blocks of medical devices with this hands-on guide This book provides a uniquely practical approach that enables readers to learn the design of medical electronic devices through the analysis of specific projects. Walking you through the building blocks of implementing medical devices, Design and Development of Medical Electronic Instrumentation addresses the practical aspects of amplifying, processing, simulating, and evoking biopotentials. It provides real-world projects that range from simple biopotential amplifiers all the way to a computer-controlled defibrillator. Anyone with a basic understanding of circuit design and electrical engineering mathematics and experience in electronic prototype construction will find these projects accessible. Chapters discuss: - Biopotential amplifiers, including a refresher on the origin and acquisition of physiological electrical signals
- Spectral content of biosignals, filter design, and the selection of frequency ranges for biopotential amplifiers
- Design of safe medical device prototypes
- International regulations and design practices for electromagnetic compatibility of medical devices
- Data acquisition, smart sensors, analog-to-digital conversion, and high-resolution spectral analysis of physiological signals
- Artificial signal sources for simulating physiological events
- Principles, clinical applications, and design of excitable tissue stimulators
- Design of cardiac pacemakers and defibrillators, including a refresher on the electrophysiology of the heart, its conduction deficiencies, and arrhythmias
With access to an ftp site that contains the software and information needed to successfully complete the projects outlined, plus a special epilogue on how to bring a medical device to market, this book will help one quickly master the essentials of medical device design and build sophisticated instrumentation for a broad range of purposes.
About the Author
DAVID PRUTCHI, PhD, received his doctorate in biomedical engineering from Tel-Aviv University, Israel. Currently, he is Vice President of Product Development for Impulse Dynamics. He has over fifteen years of experience in biomedical and medical electronic instrumentation research, design, and management. He has published over thirty papers and holds over sixty patents in the field of active implantable medical devices. MICHAEL NORRIS is a senior electronics engineer for Impulse Dynamics. He has over twenty-five years of experience as a medical device designer, including research, design and development of analog and digital circuits, microprocessors, and embedded software. Rating
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