41. Biomedical Engineering Engineering@UQ biomedical engineering. As a biomedical engineer, you maybe involved in the design, construction and development of http://www.itee.uq.edu.au/degree_programs/BE/Biomedical/

Public ITEE All UQ IN THIS SECTION QUICK LINKS ITEE Public Web Student IT Help ITEE Internal Web Staff IT Help ... Print version Biomedical Engineering What is Biomedical Engineering (BME)? The field of biomedical engineering involves the application of physical and engineering principles and methods to biology and medicine. The fundamental aim is to quantitatively understand the properties of biological systems. New discoveries and developments in biology and medicine are occurring with greater frequency now than ever before. This has lead to the rapid change and growth of biotechnology research and industry. Biomedical engineering is a booming transdisciplinary field that bridges the gap between technology, medicine and biology. It integrates physical, chemical, mathematical, and computational sciences and engineering principles with the ultimate aim of improving healthcare. Why choose to study BME? Study and work opportunities are limitless at the interface of biomedicine and engineering. As a biomedical engineer, you may be involved in the design, construction and development of: health monitoring devices or computers, e.g. blood chemistry sensors, or devices for surgery, intensive care, or mobile use

42. Biomedical Engineering: *Feature Index* -- Mertl, 1998-12-04, UNITED STATES -- S Next Wave takes a look at the biomedical engineering boom. We also profileKay C Dee, a biomedical engineering faculty member at Tulane University, http://nextwave.sciencemag.org/cgi/content/full/1998/12/03/1

FEATURE INDEX INTRODUCTION THE JOB MARKET VALUE OF UNDERGRADUATE BIOENGINEERING DEGREE ... REPORT FROM THE 1998 BIOMEDICAL ENGINEERING MEETING MAKING THE TRANSITION: MAKING THE LEAP TO BIOENGINEERING TRANSITION FROM PSYCHOBIOLOGY TO BIOENGINEERING TRANSITION FROM ACADEMIA TO INDUSTRY ACADEMIC ROLE MODEL: PROFILE OF KAY C DEE ... FORUMS Biomedical Engineering BY MELISSA M. MERTL UNITED STATES 4 DECEMBER 1998 T hese are not your father's engineers. Next Wave takes a look at the biomedical engineering boom. The overview analyzes the reasons behind the growth, gives a snapshot of the job market , and discusses the value of an undergraduate degree in the field. Read up on recent research in our review of the Annual Fall Meeting of the Biomedical Engineering Society held in Cleveland. Two graduate students who made the transition from biology share their experiences. Tissue engineer Ann Lee gives tips on making the transition from graduate school to biotech. We also profile Kay C Dee , a biomedical engineering faculty member at Tulane University, who at 28 is looking forward to influencing the course of things to come. Yulun Wang , an engineer turned medical robotics pioneer, shows us where ambition can take you in the marketplace.

43. Joint Graduate Program In Biomedical Engineering University of Texas Southwestern Medical Center at Dallas. http://www8.utsouthwestern.edu/utsw/home/education/bioengineering/

Advanced Search document.write(hashTable['Home'].parentMenu) //Second level child document.write(hashTable['Graduate School of Biomedical Sciences'].subMenu) Home Education Graduate School of Biomedical Sciences Degree Programs Joint Graduate Program in Biomedical Engineering UT Southwestern BME Home Page Admissions Courses Degree Plans ... BME at UT Arlington Home Page Joint Program in Biomedical Engineering Program Chairs: Peter P. Antich, Ph.D. (UT Southwestern) Khosrow Behbehani, Ph.D. (UTA) The University of Texas Southwestern Medical Center at Dallas The University of Texas at Arlington 5323 Harry Hines Blvd. Dallas, Texas 75390-9058 Tel: 214.648.2503 Fax: 214.648.2991 Post Office Box 19138 Arlington, Texas 76019 Tel: 817.272.2249 Fax: 817.272.2251 Email: bme@utsouthwestern.edu bme@uta.edu Biomedical Engineering is the application of engineering principles and methods to define and solve problems in medicine and biology. Students choose the biomedical engineering field to be of service to people, for the challenge of working with living systems, and to apply advanced technology to problems of health care delivery. Satisfying biomedical engineering careers can be found in industrial, health care, academic, private laboratory, and government settings. The typical biomedical engineer will work in a team environment which may include physical scientists and engineers, clinicians, and life scientists. Administrative procedures at the two schools follow one set of academic instructions for both campuses. A mechanism was established to transfer grant funds for faculty and student services between campuses which further enhanced the research collaboration. Students and faculty may now do research on either campus, thereby taking advantage of funding sources and research facilities, and enhancing the effectiveness of research training. Strong interactions are provided for biomedical engineering students with clinical and basic life science departments.

44. School Of MAE - A New Height In Engineering! biomedical engineers may work as part of a multidisciplinary team in In thehospital, a biomedical engineer may undertake a variety of roles, including http://www.ntu.edu.sg/mae/academic/graduate/MSC/MSc(BiomedEng)/

Search in NTU Websites (NTU search) Staff Directory (MAE school only) Quick links Please select A-Z Website Directory Campus Map Chinese Website Corporate Identity Department Websites Research Inst and Centres School Websites - Services CareerMall@NTU ChannelNTU Change Password Computing Continuing Education edveNTUre Email Event Calendar GSLink Library myNTU Login Nanyang Executive Centre OPAC Search StaffLink StudentLink The School Administration Research Faculty/Staff ... Continuing Education Master of Science (Biomedical Engineering) Overview Admission Requirements Programme Structure Subjects of Study Content of Subjects Application Contact OVERVIEW This M.Sc. Course is jointly offered by Nanyang Technological University and Singapore General Hospital. Biomedical Engineeing (BME) is the application of engineering to biology and medicine, involving: Engineering instrumentation for the accurate collection of anatomical and physiological data; Signal and image processing of this data; Engineering analysis and modelling of biomedical phenomena and processes, such as the function of normal and diseased organs and systems; Engineering of prostheses, orthoses, organ-assist devices, artificial organs and tissue engineering.

45. Department Of Biomedical Engineering | University Of Miami biomedical engineering (BME) is a closely related network of life sciences, The biomedical engineering (BME) Department at the University of Miami http://www.miami.edu/bme/

College of Engineering Biomedical Site People askUM Calendar myUM / EASY Site Map ... CoE Home Department of Biomedical Engineering Biomedical Engineering Welcome to the Biomedical Engineering Homepage! Biomedical Engineering (BME) is a closely related network of life sciences, the physical sciences and engineering. It is a field in which engineering principles and techniques are applied to the life sciences and medicine. It covers a wide spectrum of activities which includes the development of artificial organs and limbs, implantable medical devices, tissue engineering, biomedical instrumentation, computing in medical research and diagnosis, signal or image processing, clinical engineering, rehabilitation engineering and cardiovascular, neurological, and respiratory engineering. The diagnostic and therapeutic tools available to the physician entering the twenty-first century represent complex and intricate applications of engineering. The Biomedical Engineering (BME) Department University of Miami faculty Departmental Mission: About UM Research Athletics Colleges/Schools ... Libraries University of Miami

46. BostonWorks - Biomedical Engineer Jobs In Greater Boston BostonWorks Your source for job listings, job tools, networking events, careerfairs and articles about finding the job you want in the Boston area. http://bostonworks.boston.com/browse/jobs/engineer_biomedical.shtml

SEARCH JOBS: Advanced Search Employer Login Post a Job HR Center ... Career Fairs Health - 10/3 Open Houses News Employer Info. The Job Blog ... Tools Biomedical Engineer See also: Biochemist Chemical Engineer Chemical Engineer Engineer ... Engineer , and Validation Engineer Job Seeker Resources: Staffing Firms The Boston Globe The New York Times and the Web Biomedical Engineer Jobs EXACT MATCHES Biomedical Engineer Te1-2 Draper Laboratory - Cambridge, MA Biomedical Engineer Te1-2 Draper Laboratory - Cambridge, MA CLOSE MATCHES CAD Manager AHA Consulting Engineers - Lexington, MA 02421 Project Team Assistant AHA Consulting Engineers - Lexington, MA 02421 Automation Engineer / Sr. Research Associate Altana Research Institute - Waltham, MA Director, Neuroscience Engineering Aspect Medical Systems - Newton, MA OEM Project Engineer, Medical Devices Aspect Medical Systems - Newton, MA Principal Analog Engineer Aspect Medical Systems - Newton, MA BD Biosciences - Billerica, MA Senior Project Engineer BD Biosciences - Billerica, MA Supply Chain Quality Engineer BD Biosciences - Billerica, MA Research Assistant I Beth Israel Deaconess Medical Center - Boston, MA

47. Biomedical Engineering - Wikipedia, The Free Encyclopedia biomedical engineering is a discipline concerned with the development and Regulatory issues are never far from the mind of a biomedical engineer. http://en.wikipedia.org/wiki/Biomedical_engineering

Biomedical engineering From Wikipedia, the free encyclopedia. Vaccine Biomedical engineering is a discipline concerned with the development and manufacture of prostheses medical devices , diagnostic devices, drugs and other therapies as well as the application of engineering priciples to basic biological science problems. It is a field that combines the expertise of engineering with medical needs for the progress of healthcare . It is more concerned with biological, safety and regulatory issues than other forms of engineering . It may be defined as "The application of engineering principles and techniques to the medical field". Biomedical engineers usually require graduate degrees and sound knowledge of electronics engineering and human anatomy and physiology. The jobs are genrally high-paying, ranging from $50,000 to $100,000 in annual pay. Though the number of biomedical engineering are currently low (under 10,000), the number is expected to rise as modern medicine greatly improves. More and more universities are now improving their undergraduate biomedical engineering courses as interest in the field accelerates. With the prior discovery of the X-ray , it was not until the late when researchers began to understand the effects of X-rays on tissues and the electrical properties of tissues. These discoveries lead to X-rays being able to visualize most

48. Marquette University | Majors & Programs | Biomedical Engineering Thanks to biomedical engineering, these and other devices and systems help us Seventyfive percent of our biomedical engineers either co-op or intern http://www.marquette.edu/programs/majors/biomedicalengin.shtml

Interactive e-Catalog Undergraduate Majors Undergraduate Minors Required Courses ... Back to Marquette Home Biomedical Engineering College of Engineering Three majors: Biocomputing, Bioelectronics and Biomechanics Robots for eye surgery, implantable defibrillators, artificial organs and tissues, prosthetics and bicycle helmets. Thanks to biomedical engineering, these and other devices and systems help us not only live better lives, but longer ones. By applying engineering methods to solve medical and biological problems, biomedical engineering aims to improve our quality of life. Visit the department that offers this major. BME in DC Learn about biomedical research and regulatory issues at the FDA through internships at Marquette's Les Aspin Center for Government in Washington, D.C. Solve real engineering problems. With your senior-year capstone course, you and your fellow students will be on a design team commissioned to solve real biomedical problems. Take your degree farther. You can complete two degrees in five years through Marquette's unique combined bachelor's and master's degree program, or join the 15 percent of our graduates who enter medical school following graduation. Be an engineer before you graduate.

49. DeVry University Biomedical Engineering Technology Program Through your education in DeVry s biomedical engineering Technology program (Biomedical At DeVry you can pursue your education in biomedical engineering http://www.devry.edu/programs/biomedical_engineering_technology/about.jsp

50. Brown Library Resources: Biomedical Engineering Research Guide Biomedical Technology and Devices Handbook biomedical engineering Handbook —Brown Library Reference R856.15 .B56 2000 CRC Handbook of Chemistry and Physics http://www.lib.virginia.edu/science/guides/s-biom.htm

Brown Library Home General Information Resources Engineer's Library Blueprint ... Satellite Libraries Biomedical Engineering Research Guide Subject Librarian: Carla Lee I'd like to schedule a Research Tutorial Databases/Indexes Web Resources Go To Book Indexes Conference Paper Indexes Upcoming Conferences Index Current Awareness Services ... Reference Sources Go To Biomedical Engineering Department Return To Subject Guides Menu Engr and EnviSci Library Brown Library Homepage Recommended Reference Works McGraw-Hill Dictionary of Scientific and Technical Terms Biomedical Technology and Devices Handbook Biomedical Engineering Handbook CRC Handbook of Chemistry and Physics ENGnetBASE Encyclopedia of Life Sciences Scientific and Technical Acronyms, Symbols and Abbreviations ... Safari Tech Books Online Databases / Indexes Book Indexes Search these databases for books. VIRGO Information on over 5 million books, journals, and other items held in the University of Virginia's libraries, including business, health sciences, and law. Canada Institute for Scientific and Technical Information Catalogue Search for books, technical reports, journals and conference proceedings in all areas of science, engineering, health sciences and agriculture.

51. ENGINEERING DEPARTMENT, TRINITY COLLEGE Many are electrical, mechanical, or biomedical engineers, but one former studentcombined a strong knowledge of computers with a graduate degree from http://www.trincoll.edu/depts/engr/

Menu: Home Mission Statement Educational Objectives Educational Outcomes ... Walk On Water Contest By definition, Engineering is the application of scientific knowledge to solve practical problems. In practice, it is infinitely more. It is flight and bird calls and synaptic interaction. Satellites and laser lights. Heartbeats and drumbeats. Ceramics. Aerodynamics and silicon chips. "It is," as Ralph Waldo Emerson said, "Our looking to the essence of things." As a result, it is challenge and stimulus to engineer and painter alike. T rinity College has been committed to engineering instruction for over one hundred years, offering civil and mechanical engineering courses as early as 1856. Today, Trinity is one of just a handful of highly-selective liberal arts colleges that offers degrees in engineering: an ABET-accredited Bachelor of Science degree, and a Bachelor of Arts degree. These degrees prepare students for careers in industry and for further study in engineering graduate programs or post-graduate schools of law, medicine, and business. Consonant with its intellectual environment, the Trinity engineering program requires substantial study in the traditional liberal arts, encouraging students to examine critically a broad range of scientific, humanistic, and technological problems. The engineering program also encourages interdisciplinary ties to other science departments including biology, chemistry, computer science, neuroscience, and physics.

52. Engineering Education Service Center - Biomedical Engineering Booklet Engineering Education Service Center biomedical engineering Booklet. http://www.engineeringedu.com/store/minibme.htm

Engineering Education Service Center Consulting Services Presentations and Workshops Publications Pre-Engineering Times ... Gifts for Engineers Is There a Biomedical Engineer Inside You? A Student's Guide To Exploring Biomedical Engineering Author: Celeste Baine Pub Date: 10/2000 Booklet, 5.5 x 8.5, 16 pages Subject Area: Engineering Career Reference List Price: $5.95 Set of all 6 Booklets Is There a Materials Engineer Inside You? Is There a Mechanical Engineer Inside You? Is There an Electrical Engineer Inside You? ... Is There a Civil Engineer Inside You? Featured Are: · What is biomedical engineering? · Includes sub-divisions of biomedical engineering such as clinical, rehabilitation, genetic, biomechanical, bioelectrical and biochemical engineering. · Salary Information · Colleges of Engineering for Biomedical Engineering with their areas of specialization · Major Areas of Employment · Biomedical Engineering Societies 100% Safe Shopper Site. Engineering Education Service Center P.O. Box 70326

53. Biomedical Engineering - Degree In, Faculty Of Science And Engineering, Flinders Degree in biomedical engineering course information, Science and Engineering,Flinders University, Adelaide, Australia, Adelaide Science, new science, http://www.scieng.flinders.edu.au/courses/engineering/biomedical/

Fast Facts About the course What is Biomedical Engineering? Career opportunities What will I study? Why study at Flinders? Entry requirements Australian students International students What background is required? Credit transfer opportunities ... Apply now More about Biomedical Engineering Professional recognition Related research activities Biomedical Engineering on the Web Course rule and topics ... Other Flinders courses Biomedical Engineering Bachelor of Science / Bachelor of Engineering (Biomedical) - BSc/BEng(Biomed) Fast Facts Course level: Undergraduate Course length: Five years full-time or equivalent part-time. Taught on-campus at Flinders. Available to Australian and international students. Prerequisites: Mathematical Studies and Physics, as well as assumed knowledge of SACE Stage 2 Chemistry. SATAC Code: Cutoff score for entry - Tertiary Education Rank (TER) Top of page What is Biomedical Engineering? Engineers solve problems and design and build systems and equipment that benefit everyone in the community. Biomedical engineers are people-oriented. They integrate engineering with medicine and nature to solve health-related problems and enhance our quality of life, often working in multi-disciplinary teams with medical specialists.

54. The Future Of Your Discipline - Biomedical Engineering Quick, degreespecific reports written by industry experts. Who is hiring graduatesfrom your discipline? How will your degree deteriorate in value over the http://www.graduatingengineer.com/futuredisc/biomed.html

Choose Topic Home Resume Help Regional Job Markets Interview Help Company Profiles Salary Negotiation Entry Level Salaries Your Discipline Career Profiles Ask Dr. Job Intl. Insights Tutorials Quotes Industry Focus Minority Issues Women in Tech Organizations Graduate School Features Archive GECC Magazine Advertising Site Map Full Site Feature Articles Minority Issues Women In Technology Career Profiles Companies Your Discipline Ask Dr. Job International Insights Graduate Schools Industry Focus Job Markets Organizations Pure Procrastination About GE The Future of Your Discipline Resources Career Profiles Organizations Minority Issues Women in Technology ... Quotations Articles Feature Articles Higher Education Graduate School The Job Hunt Company Profiles Regional Job Markets Entry Level Salaries Search Jobs Graduating Engineer in Print About GE Magazine This Month in Print Prognosis Positive for Biomedical Engineering Grads by Shayna Sobol The employment outlook for biomedical engineering graduates is, in a word, good. So say three professors who are tops in the field, from Northwestern University in Evanston, Ill., to Clemson University in South Carolina. "The outlook is good and getting better as employers recognize the value of the specialty of biomedical engineering," notes Dr. Scott Delp, associate professor of biomedical engineering and rehabilitation at Northwestern University, as well as a research scientist at the Rehabilitation Institute of Chicago. "The more biomedical engineers who go out into industry, the more I see that trend continuing."

55. NAEP | Types Of Engineering > Mechanical Engineering > Biomedical Biomechanical and biomedical engineering combine the discipline of mechanical By combining your knowledge of biomedical engineering with western and http://www.nativeaccess.com/types/mech_biomedical.html

I want to view ... Ancestral Curriculum Education Modules Pro-Dev. Role Models Eng. Types Home Types of Engineering Mechanical Engineering Examples ... Role Models Biomedical Biomechanical and biomedical engineering combine the discipline of mechanical engineering with human anatomy and physiology. Work in this area may include designing prostheses, developing movement systems for people with spinal injuries, and refining equipment for athletes in high-performance sports. Examples If you want to help people in your community or across the planet who are in need of medical help then biomechanical and biomedical engineering is a smart choice. Biomechanical and biomedical engineers are involved in: Designing artificial hearts and pacemakers that may extend a person's life Creating lifelike prosthetic limbs for greater mobility and freedom Improving glucose monitors Developing new physiotherapy technologies for sports injuries Improving incubators for premature babies Back to Top Engineering in your Community How many people in your community have diabetes? How many children are alive today because of the incubator they were put in after birth?

56. Biomedical Engineering Frank CP Yin, MD, Ph.D., the Stephen F. and Camilla T. Brauer Professor ofbiomedical engineering and department chair, heads a dynamic department just six http://news-info.wustl.edu/group/page/normal/55.html

nothing = 1; - Faculty Experts - News by Topic - News by School WUSTL in the News - Powered by Google WUSTL Home Public Affairs Home University News Medical News ... University Groups Biomedical Engineering Chair: Frank Yin Home Page: http://biomed.wustl.edu/ Location: 190 Whitaker Hall Frank C.P. Yin, M.D., Ph.D., the Stephen F. and Camilla T. Brauer Professor of Biomedical Engineering and department chair, heads a dynamic department just six years old in 2003 and already flourishing, considered highly across the nation. With ten full-time faculty and more than 270 undergraduates and nearly 70 graduate students - including 50 at the doctoral level - biomedical engineering is one of the most popular fields of study at Washington University. The educational programs are implemented via an Institute of Biological and Medical Engineering (IBME) a joint enterprise of the schools of medicine and engineering. The IBME comprises a network of more than 80 faculty involved in biomedical engineering-related research. This unique entity is a manifestation of the strong collaboration between our two schools and provides students access to a diverse array of opportunities for research training via five IBME programs. The goal of biomedical engineering is to integrate basic biology with the advanced quantitative and analytical methods of engineering. Integration is stressed not only from the single molecule level to that of the entire organism but also to take advantage of the new advances in the many disciplines involved in biomedical engineering research.

57. WPI 2004-2005 Graduate Catalog - Biomedical Engineering It cannot be used to satisfy a biomedical engineering course requirement. Examines the responsibilities and functions of the biomedical engineer in the http://www.wpi.edu/Pubs/Catalogs/Grad/Current/bmecourses.html

Download the entire catalog in Adobe PDF (1 MB) About WPI Academic Calendar Graduate Degrees and Certificates Admission Information ... Physics Biomedical Engineering BME 523. Biomedical Instrumentation Origins and characteristics of bioelectric signals, recording electrodes, biopotential amplifiers, basic sensors, chemical, pressure, sound, and flow transducers, noninvasive monitoring techniques and electrical safety. (Prerequisites: Circuits and electronics, control engineering or equivalent.) BME 525. Microprocessor-Based Biomedical Instrumentation This course provides hands-on laboratory experience with common biomedical transducers and instrumentation used in physiological and clinical evaluation. Lectures and laboratory experiments cover electronic circuit design and construction, analog/digital signal acquisition and processing, and microprocessor-based biomedical instrumentation. The basic principles of hardware and software designs for interfacing biomedical sensors to microprocessors are emphasized. (Prerequisite: Analog and digital electronics.) BME 541. Biological Systems

58. WPI Department Of Biomedical Engineering- What Is Biomedical Engineering? biomedical engineering is a discipline that advances knowledge in Biomedicalengineering is such an exciting discipline largely because it is at the http://www.wpi.edu/Academics/Depts/BME/About/

Careers and Jobs BME at WPI Specializations What is Biomedical Engineering? Biomedical Engineering is a discipline that advances knowledge in engineering, biology and medicine, and improves human health through cross-disciplinary activities that integrate the engineering sciences with the biomedical sciences and clinical practice. It includes: The acquisition of new knowledge and understanding of living systems through the innovative and substantive application of experimental and analytical techniques based on the engineering sciences. The development of new devices, algorithms, processes and systems that advance biology and medicine and improve medical practice and health care delivery. Source: The Whitaker Foundation Why BME? Biomedical engineering is such an exciting discipline largely because it is at the forefront of the medical revolution, including the technological advances that improve healthcare. It is characterized by the following types of activities: Uncovering new knowledge in areas of biological science and medical practice by applying engineering methods. Studying and solving medical and biological problems through analytical techniques in engineering.

59. Jets - The Pre-Engineering Times The objective of biomedical engineering is to enhance health care by Many students say they choose biomedical engineering because it is peopleoriented. http://www.jets.org/newsletter/1004/feature.htm

From the Editor JETS News Feature Story Feature Links ... JETS Home Editor: Celeste Baine Engineering Education Service Center www.engineeringedu.com October 2004, Issue #33 MEDIAN INCOME: $70,000 What is Biomedical Engineering? The objective of biomedical engineering is to enhance health care by solving complex medical problems using engineering principles. Those who specialize in this field want to serve the public, work with health care professionals, and interact with living systems. This broad field allows a large choice of sub-specialties. Many students say they choose biomedical engineering because it is people-oriented. Imagine designing a medical device that appears to breath life into someone. The pacemaker was invented by biomedical engineers who literally gave recipients the ability to perform physical activities such as climbing a flight of stairs or walking around the block. The biomedical engineering field changes rapidly. New technology is designed and fabricated every day. Biomedical engineers can expect a satisfying career with tremendous diversity and growth potential. The field includes many branches: biomechanical, bioelectrical, biochemical, rehabilitation, clinical, and genetic engineering. There are also many sub-specialties within biomedical engineering such as surgical lasers, telemedicine, nuclear medicine, and clinical computer systems. According to the BMES, examples of specialization include:

60. Biomedical Engineering biomedical engineering CAST Bobby Approved (v 3.1) This page meets ADA compliancestandards set by CAST. Copyright ©20002004 http://www.careers.ucr.edu/students/careerplanning/majorsheets/BioMedEn.html

Biomedical Engineering Bio-Medical Engineers apply their knowledge of engineering and human anatomy to the discovery and maintenance of systems and equipment used to assist medical and other health care professionals. Bio-Medical Engineers contributions help to improve the quality of life and are an important part of the health care system. Representative Job Titles and Area of Specialization Nature of the Work Places of Employment Training Representative Job Titles and Area of Specialization Bio-Technical Engineer Medical Engineer Clinical Engineer Bio-Environmental Engineer Nature of the Work The role of the Bio-Medical Engineer is one of the most exciting and rewarding of all the engineering opportunities. The most usual function of a Bio-Medical Engineer is as a part of a medical team. They provide the technical interface between the manufacturer and the user of medical equipment. A Bio-Medical Engineer's interdisciplinary background and their engineering expertise is relied upon heavily. Premature infants depend on them because of their vital function within the medical team. They enhance the quality of life for many individuals. Bio-Medical Engineers function in one of four areas; Bioengineering, medical engineering, clinical engineering, and bio-environmental engineering. Medical engineers apply engineering concepts and technology to the development of instrumentation materials, diagnostic and therapeutic devices, artificial organs and other medical equipment.

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