Medical Device Technologies
A Systems Based Overview Using Engineering Standards
Published on 30. October 2018
Book
Paperback/Softback
528 pages
978-0-12-810329-6 (ISBN)
Description
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 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).
More details
Language
English
Place of publication
San Diego
United States
Publishing group
Elsevier Science Publishing Co Inc
Target group
College/higher education
Junior, Senior and Graduate Students of Biomedical Engineering and Bioengineering; Electrical and Electronic Engineers; Clinical Engineers
Dimensions
Height: 235 mm
Width: 191 mm
ISBN-13
978-0-12-810329-6 (9780128103296)
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Classification
Other editions
New editions
Book
11/2020
2nd Edition
Academic Press
€127.50
Shipment within 15-20 days
Additional editions
Book
11/2011
Academic Press
€86.79
Article exhausted; check for reprint
Person
Dr. Baura received her BS Electrical Engineering degree from Loyola Marymount University, her MS Electrical Engineering and MS Biomedical Engineering degrees from Drexel University, and her PhD Bioengineering degree from the University of Washington. Between her graduate degrees, she worked as a loop transmission systems engineer at AT&T Bell Laboratories. She then spent 13 years in the medical device industry conducting medical device research and managing research and product development at several companies. She holds 20 U.S. patents. In her last industry position, Dr. Baura was Vice President, Research and Chief Scientist at CardioDynamics. In 2006, she returned to academia as a Professor of Medical Devices at Keck Graduate Institute of Applied Life Sciences, which is one of the Claremont Colleges.Throughout her career, Dr. Baura has championed engineering curriculum excellence. She has written four engineering textbooks, three of which are medical device textbooks. She is an ABET Engineering Accreditation Commissioner. In her new position as Director of Engineering Science at Loyola, she is constructing a general engineering curriculum that incorporates substantial industry input and prepares new engineering graduates for positions in the medical device, semiconductor, and wastewater treatment industries.
Content
Pt 1: Devices; Introduction to Diagnosis and Therapy Devices; Electrocardiographs; Pacemakers; External Defibrillators; Internal Cardioverter Defibrillators; Heart Valves; Catheters, Stents and Grafts; Blood Pressure Monitors; Hemodialyzers; Ventilators; Pulse Oximeters; Thermometers; Electroencephalographs; Neurostimulators; Cochlear Implants; Functional Electrical Stimulators; Hip and Knee Prosthesis; Drug-Eluting Stents; Artificial Pancreas; Part 2: Laboratory Experiments