81. Biomedical Engineering - RTI International biomedical engineering RTI International - Developing and improving new materialsand electronic applications and devices for use in medical and http://www.rti.org/page.cfm?nav=120

82. Biomedical-engineering.html The biomedical engineer is responsible for design and development of the The rapid expansion of the field of biomedical engineering is due to many http://ase.tufts.edu/bulletin/biomedical-eng.html

Biomedical Engineering Professor David Kaplan, Chair; Biopolymer engineering, biomaterials, tissue engineering, regenerative medicine Associate Professor Mark Cronin-Golomb, Optical instrumentation, laser tweezers, atomic force microscopy, nonlinear optics Associate Professor Sergio Fantini, Biomedical instrumentation, medical optics, near-infrared imaging of the brain, optical mammography, muscle hemodynamics, diffuse optical tomography Associate Professor Fiorenzo Omenetto, Ultrafast nonlinear optics Associate Professor Vo Van Toi, Biomedical instrumentation, vision and ophthalmology, telemedicine Assistant Professor Irene Georgakoudi, Biomedical spectroscopic imaging and characterization, in vivo flow cytometry, biomedical instrumentation Research Associate Professor Vladimir Volloch, Mammalian gene expression, regulation of cellular and organismic aging, anticancer drug delivery Research Assistant Professor Greg Altman, Collagen based matrices, ligament formation, impact of mechanical forces on human adult stem cell differentiation, bioreactor system, in vitro tissue formation and development

83. Biomedical Engineer Jobs In Biomedical Engineer Job Search. Jobs.com biomedical engineer Jobs - powered by Monster. http://biomedical.engineer.jobs.monster.com/

Post a Job Here! Jobs .com Home Biomedical Engineer Jobs Biomedical Technician Jobs Biomedical Equipment Technician Jobs ... Principal Engineer Jobs Search biomedical engineer Jobs New Search Looking to hire employees Post a job and recruit the most qualified candidates today. Post your job in minutes. Get responses from job seekers in minutes. biomedical engineer Jobs 1 to 25 of 308 Show Jobs Posted: Last 24 hours Last 3 days Last 7 days Last 14 days Last 30 days Last 60 days All Jobs Page 1 of 13 View: Brief Detailed Date Job Summary Company Location Sep 19 Technical Sales Support Engineer-Biomedical more Career Level: Experienced (Non-Manager) Job Type: Employee Job Status: Full Time Salary: From 20,000.00 to 23,000.00 GBP per year Sales Positions UK-HC-Surrey Sep 17 SENIOR FIELD SERVICE ENGINEER - MEDICAL RADIOLOGY IMAGING EQUIPMENT JOB TITLE and LOCATION: Senior Field Service Engineer for National Technical Support for Dry Laser Imaging Equipment. This position is located in Northern New Jersey. We seek qualified candidates who l ...[ more Relevant Work Experience: 7+ to 10 Years Career Level: Manager (Manager/Supervisor of Staff) Job Type: Employee Job Status: Full Time Management Recruiters Intntl US-NJ-Northern Sep 17 Healthcare Apps Engineer Description: Intel's digital health organization is looking for engineers with experience successfully taking electronic biomedical products through the clinical trial process. In this position, your r ...[

84. Biomedical Engineering - People - Profile - Yohei Yokobayashi UC Davis biomedical engineering. Genome and Biomedical Sciences Building 451 EastHealth Sciences Drive Department of biomedical engineering UC Davis http://www.bme.ucdavis.edu/profile/yoko

Genome and Biomedical Sciences Building 451 East Health Sciences Drive Davis, CA 95616-5294 Phone: 530-752-1033 Fax: 530-754-5739 Introduction Department People Research ... Links (Powered By Department of Biomedical Engineering UC Davis Genome and Biomedical Sciences Building 451 East Health Sciences Drive Davis, CA 95616-5294 Phone: 530-752-1033 Fax: 530-754-5739 Yohei Yokobayashi Assistant Professor Biomedical Engineering yoko@ucdavis.edu PERSONAL EDUCATION B.E. in Synthetic Chemistry, 1994, The University of Tokyo, Japan M.E. in Chemistry and Biotechnology, 1996 The University of Tokyo, Japan Ph.D. in Chemistry, 2001 The Scripps Research Institute, La Jolla, CA RESEARCH INTEREST Synthetic Biomolecular Networks Many of the unique characteristics of biological systems (cell, organism, ecosystem) such as replication, adaptation, and evolution are the products of networks of numerous interacting biomolecules, cells, and organisms. Understanding how these networks function is becoming a very important goal of biology with recent advances in technology that provide huge amounts of data such as DNA and protein arrays. While mining these data to dissect existing biological systems is crucial in understanding how biological networks work, we focus on a complementary approach that aims to reconstruct small synthetic networks of biomolecules that partially capture the functions of natural biomolecular networks. Synthetic networks with functions such as switching, computation, and communication will be designed and constructed in and out of cells. By building networks de novo, we can test our understanding of how natural networks work. Synthetic networks are also expected to have potential applications in biotechnology and medicine. We will also engineer biomolecules (proteins, RNAs) that are necessary and useful for building such synthetic networks.

85. Office Of Science Education - LifeWorks - Biomedical Engineer biomedical engineer. Printer Friendly Version Work Context Conditions,biomedical engineers are employed in education, industry, hospitals, http://science.education.nih.gov/LifeWorks.nsf/Alphabetical List/Biomedical Engi

OSE Home LifeWorks Alphabetical List > Biomedical Engineer Biomedical Engineer Printer Friendly Version Activities Apply knowledge of engineering, biology, and biomechanical principles to the design, development, and evaluation of biological and health systems and products, such as artificial organs, prostheses, instrumentation, medical information systems, and health management and care delivery systems. Outlook Faster-than-average-job growth Median Income $57,480 per year in 2000 Biomedical engineers are employed in education, industry, hospitals, research facilities of educational and medical institutions, and government agencies. They often serve a coordinating or interfacing function, using their background in both the engineering and medical fields. Minimum Education Requirements Bachelor's Degree Skills Monitoring, Critical Thinking, Equipment Selection, Mathematics, Active Learning, Judgment and Decision Making, Operation Monitoring, Operations Analysis, Coordination, Reading Comprehension, Speaking, Technology Design, Science, Quality Control Analysis, Complex Problem Solving Abilities Oral Expression, Number Facility, Visualization, Deductive Reasoning, Problem Sensitivity, Written Comprehension, Near Vision, Speech Clarity, Mathematical Reasoning, Information Ordering, Inductive Reasoning, Written Expression, Oral Comprehension, Fluency of Ideas, Category Flexibility, Originality

86. WSU - Biomedical Engineering Major Information on the biomedical engineering program at Wright State University. http://www.wright.edu/majors/bme_more.html

Majors Getting the Grades Profile of First Year Students Coops/ Internships ... Transfer Course Equivalancies Biomedical Engineering Major Suggested Curriculum Fast Facts Note Biomedical engineering is the application of engineering principles and methods to solve problems in the medical and biological areas. A biomedical engineer may be called upon to design specialized biomedical equipment, design and construct systems to support failing organs, investigate the biomechanics of normal systems and systems under injury or healing, and design systems to provide some return of function to the spinal cord after injury. The undergraduate biomedical engineering program is accredited by the Accreditation Board for Engineering and Technolgy (ABET). A premedical studies track is available, which prepares students for medical school admission while still providing them with an accredited biomedical engineering degree. Bachelor of Science in Biomedical Engineering - Suggested Curriculum Freshman Submicroscopic Chemistry Macroscopic Chemistry Calculus I, II, III

87. BioMedical Engineering OnLine | Full Text | Review Of "Electrical Impedance Tomo biomedical engineering OnLine 2005, 427 doi10.1186/1475925X-4-27 The electronicversion of this article is the complete one and can be found online at http://www.biomedical-engineering-online.com/content/4/1/27

Home Browse articles Search Weblinks ... Volume 4 Viewing options Abstract Full text PDF Associated material: PubMed record Related literature: Articles citing this article on Google Scholar Other articles by authors Wang G ... Similar articles (PubMed) Tools: E-mail to a friend Download references Post a comment Key E-mail Corresponding author Book review Review of "Electrical Impedance Tomography" Edited by David S. Holder Ge Wang Department of Radiology University of Iowa 200 Hawkins Drive Iowa City, IA 52242, USA BioMedical Engineering OnLine The electronic version of this article is the complete one and can be found online at: http://www.biomedical-engineering-online.com/content/4/1/27 Received Accepted Published This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/2.0 ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Book details Holder David S: Electrical Impedance Tomography. 1st edition. Institute of Physics Publishing, Bristol and Philadelphia; 2005.

88. MIT Biomedical Engineering Society MIT s student chapter of the biomedical engineering Society was founded in 1995 by The biomedical engineering Society shall also exist as a forum for http://web.mit.edu/bmes/www/about.html

var sc_project=362635; var sc_partition=1; Announcements Upcoming Events About BMES Become a Member ... MIT Graduate BE Board MIT's student chapter of the Biomedical Engineering Society was founded in 1995 by three MIT seniors who saw the need for a student organization dedicated to providing students with research, employment, and educational opportunities in biomedical engineering. Purpose The purpose of the Biomedical Engineering Society is to bring knowledge to its members concerning the advancement of biomedical research and technology in the medical field. The Biomedical Engineering Society shall also exist as a forum for discussion among the MIT community who would like share ideas or opinions. Meetings shall promote interests through activities such as lectures, presentations, tours, and social activities. Membership Society membership is not restricted to students minoring in biomedical engineering. Our members are generally undergraduate students majoring in biology, chemistry, chemical engineering, mechanical engineering, electrical engineering, aeronautics/astronautics, physics, and economics; they span nearly all academic majors available at MIT, and are brought together by one common interest – solving problems in biomedicine through the application of science and engineering. Student members are interested in research, industry, and premedical fields. Creating a Foundation, Establishing a Legacy – President’s Letter Fall 2004

89. Baylor University Graduate Engineering Programs MS Students working on a Master of Science in biomedical engineering must take aminimum of three of the EGR 5360 Introduction to biomedical engineering http://www.ecs.baylor.edu/gradengineering/index.php?id=221

90. Biomedical Engineering & Medical Physics Course Descriptions - Graduate School O WPI Courses for biomedical engineering Medical Physics Students. Contact WPI sDepartment of biomedical engineering at 508831-5447 for details on faculty http://www.umassmed.edu/gsbs/course/biomed.cfm

directory contacts index this section only GSBS Home Academic Programs Academic Requirements GSBS Faculty ... courses Advanced Biomedical Science courses available for students in this program should be selected from existing program and interdisciplinary courses described throughout this catalog. Specific courses for individual students will be determined with the assistance of an advisory committee. BE750 TISSUE ENGINEERING This course provides an introduction to bio-materials that are engineered to mimic the structure and function of tissues. L. Bonassar. Spring, 3 credits PY710 THE CELL WORKS: PRINCIPLES OF CELL PHYSIOLOGY The objectives of the course are to provide a fundamental understanding of the basic biophysical principles of cell physiology; the ability to relate cellular function to whole organ physiology; and the cellular mechanisms underlying disease. By emphasizing the principles of cell physiology, the course will identify important physiological paradigms and the modern research methods used to resolve outstanding questions concerning cell function. M. Sanderson. Spring, 4 credits. Prerequisites: Biochemistry and Molecular Biology; minimum enrollment and consent of Course Coordinator.

91. Biomedical Engineering What areas of work can biomedical engineers specialise in? A BiomedicalEngineer uses traditional engineering expertise to analyze and solve problems in http://www.shef.ac.uk/materials/prospective_ug/courses/biomedical

@import url(/sheffield/road/Classic/article/0/shared/css/general.css); Home About Departments Contact ... Log into MUSE Search Biomedical Engineeri The whole web site for Engineering Materials You are here: Home Departments Engineering Materials Prospective Undergraduates ... Ethics Review Procedure BEng/MEng in Biomedical Engineering (UCAS code BH81) Biomedical engineering is a rapidly emerging discipline. As a Biomedical Engineer you will work to improve human health by integrating your engineering knowledge with medical science and practice. Our programmes are designed to give you the engineering and biological skills required to develop an understanding of living systems. This will enable you to create new devices, instrumentation and software to advance biology and improve health care. In the 1st 2 years of the degree you will gain skills in a range of engineering disciplines, anatomy, physiology and applications of engineering in medicine. Then in 3rd and 4th year you will specialise in a specific aspect of biomedical engineering and apply your knowledge in a research project. More Information on Biomedical Engineering Quick Links More Information on Biomedical Engineering Materials Science and Engineering Biomaterial Science and Tissue Engineering Online information request form ... Accessibility Western Bank, Sheffield S10 2TN, UK

92. Department Of Biomedical Engineering Become knowledgeable in a special discipline of biomedical engineering such Adjunct Professor of biomedical engineering (Department of Biochemistry and http://www.cwru.edu/bulletin/02-04html/engineering2.html

Department of Biomedical Engineering 319 Wickenden Building (7207) Phone 216-368-4063; Fax 216-368-4969 Patrick E. Crago, Chair e-mail xx220@po.cwru.edu http://bme.cwru.edu BACKGROUND Biomedical engineering (BME) uniquely advances human health and the biological sciences by creating and applying technology based on phenomena described by the biological and physical sciences. Graduates in biomedical engineering are employed in industry, hospitals, research centers, government, and universities. Biomedical engineers also use their undergraduate training as a basis for careers in business, medicine, law, and other professions. The educational philosophy is to develop in students Mastery of Fundamentals Creativity Societal Awareness Leadership Skills Professionalism FACULTY Primary Appointments Patrick E. Crago, Ph.D. (Case Western Reserve University) Professor and Chairperson; Allen H. and Constance T. Ford Professor Control of neuroprotheses for motor function; neuromuscular control systems Ravi V. Bellamkonda (Brown University) Associate Professor Biomaterials; neural tissue engineering; 3D hydrogel based scaffolds; gene and protein delivery vehicles; vascular grafts and nerve regeneration

93. Biomedical Final Degree Awarded Master of Science in biomedical engineering Students inthe field of biomedical engineering will gain knowledge in engineering as http://www.rwth-aachen.de/zentral/english_ms_msegl_biomedical.htm

RWTH-Web Information in English About RWTH Faculties and Divisions ... International Cooperations Graduate Programmes Final Degree Awarded: Master of Science in Biomedical Engineering Language of Instruction: English Duration of the Programme Two years Beginning of the Programme: October Goals of the Programme This programme offers an interdisciplinary course of studies in life science. Students in the field of Biomedical Engineering will gain knowledge in engineering as well as in medical and natural sciences Graduates will also have the necessary qualifications to pursue a doctoral degree. General Description of the Programme In an joint action the Faculty of Mathematics, Computer Sciences and Natural Sciences, the Faculty of Mechanical Engineering, the Faculty of Electrical Engineering and Information Technology and the Faculty of Medicine have designed a curriculum espacially for this programme, led by the Faculty of Medicine. The design of the programme takes full advantage of the environment offered at RWTH as one of the leading universities of technology in Europe.

94. NJIT - Newark College Of EngineeringBiomedical Engineering biomedical engineering allows a student to work as an engineer at the Earning a bachelor’s degree in biomedical engineering prepares the NJIT student http://engineering.njit.edu/departments/biomed.php

About NCE Departments Biomedical Engineering Chemical Engineering ... Research Biomedical Engineering NJIT offers an exciting education in biomedical engineering. New studio-based courses combine faculty lectures with hands-on experience. Theory is learned in the context of real-life applications. Students are encouraged to explore the breadth of the field through many opportunities - design new instrumentation, study advanced computer applications in medicine and pharmacology, research new biomaterials, apply laser technology to treat disease, build micro and nano machines, and work on new prosthetic devices. Learn more... Maintained by Newark College of Engineering . Date of last update: 07/13/2004 03:11 PM var m1 = new Menu("ly1");

95. Biomedical Engineering Master of Science in biomedical engineering. The Department of BiomedicalEngineering at Florida International University offers Research and Professional http://www.bme.fiu.edu/BME_MasterOfScience.htm

Master of Science in Biomedical Engineering Admission Requirements (greater then or equal to) 3. Applicants who have not satisfied the above will be evaluated for probationary or waiver admission. 4. In addition to the above criteria, foreign students whose native language is not English, must take the Test of English as a Foreign Language (TOEFL) and obtain a score of 550 on written exam or 213 for computerized exam. Graduation Requirements The degree will be conferred when the following conditions have been met: 1. Recommendation of the advisor and faculty of the Department. 2. Certification provided by the Department Chair, College Dean, and University Graduate School that all degree requirements have been met. 5. Successful defense of an acceptable graduate thesis if required of the program. 7. Comply with all University policies and regulations.

96. Biomedical Engineering Graduate Degree The degree program is part of the twoyear-old biomedical engineering program (BME), In addition, an undergraduate minor in biomedical engineering, http://www.news.cornell.edu/Chronicle/04/4.15.04/BME_course.html

New biomedical engineering graduate degree gets state approval Cornell's newly established master of engineering degree in biomedical engineering has been approved by the New York State Department of Education The degree program is part of the two-year-old Biomedical Engineering program (BME), which integrates the life sciences into engineering education, both at the graduate and undergraduate levels. The master's program is recruiting fall 2004 students, the first of whom will graduate in May 2005. Michael Shuler, the Samuel B. Eckert Professor in Chemical Engineering at Cornell, director of the cross-campus BME program, said that the new M.Eng. degree will prepare students for professional practice in biomedical engineering. "Students in the program will acquire a broad perspective on the biomedical engineering discipline that complements their undergraduate training in engineering or science, and in-depth knowledge of an essential area in biomedical engineering," he said. The degree's three areas of focus are: biomedical mechanics and materials, bioinstrumentation/diagnostics, and drug delivery and cellular/tissue engineering. Graduates will be equipped to design biomedical devices and develop therapeutic strategies within the bounds of heath-care economics, the needs of patients and physicians, the regulatory environment for medical devices and pharmaceuticals, and stringent ethical standards of biomedical engineering practice. "We believe that the breadth and depth of knowledge needed in biomedical engineering makes a four-year B.S. degree program impractical. By combining the M.Eng. in BME with a strong B.S. program, a student can obtain the knowledge and skills necessary to be an effective professional biomedical engineer," Shuler said. Students will be able to link their undergraduate training to the new master's program to create a five-year program in biomedical engineering.

97. Biomedical Engineering -- Course Catalog -- Bucknell University The College of Engineering is dedicated to providing outstanding educationalopportunities in engineering to a predominantly undergraduate student body of http://www.bucknell.edu/Academics/Academic_Offices_Resources/Course_Catalog/Opti

@import "/img/assets/6995/global.css"; @import "/img/assets/6995/color.css"; myBucknell Giving To Bucknell Bookstore Course Catalog ... University Directory Bucknell Information For: Select one Prospective Student Alumni Visitors Home Academics Course Catalog Optional Minors Biomedical Engineering College of Engineering Curricula The College of Engineering is dedicated to providing outstanding educational opportunities in engineering to a predominantly undergraduate student body of talented men and women. In accord with the university’s Mission Statement, the College nurtures the intellectual, professional, and personal development of its students. The College strives to prepare them for entry into the engineering profession, related fields and graduate programs, and for continuing development as highly competent professionals and responsible members of society. A Bucknell engineering education is distinguished by frequent interaction between students and faculty, a strong laboratory component in the curricula, and an emphasis on learning within a liberal arts university environment. The faculty are dedicated to teaching excellence and are actively engaged in scholarship in support of the educational mission, the discipline, or the profession. Curricula in the College of Engineering lead to the degrees of bachelor of science in the disciplines of biomedical, chemical, civil, electrical, and mechanical engineering, as well as the bachelor of science in computer science and engineering. Integrated five-year liberal arts/engineering programs, leading to bachelor of science and bachelor of arts degrees, are also offered. In addition, students may choose to integrate their studies by concentrating their electives to pursue interests in a particular area such as biomedical or environmental engineering. The cross-disciplinary nature of these studies allows students from several disciplines to participate in available courses.

98. TU Delft - Biomedical Engineering BME biomedical engineering. print this page print this page Biomedicalengineering is a multi-disciplinary specialisation with great challenges, http://bme.tudelft.nl/

var topicType = 'TUDdetailbijdrage'; Mechanical, Maritime and Materials Engineering Content Menu Taal/Language Banners ... Portal Menu U maakt gebruik van een browser die de gebruikte web-standaarden niet of onvolledig ondersteunt. Hierdoor kunnen afwijkingen in de lay-out ontstaan. Afhankelijk van uw platform is deze site het beste te bekijken met een recente versie van Microsoft Internet Explorer (5 of hoger) Mozilla (1 of hoger) en Opera (6 of hoger) var tmp = randompicture('headerback2','',aHeader2BackPic); Home Sitemap Search Portal Menu 3mE Campus Education MSc. Programs Biomedical Engineering back print this page Biomedical Engineering At Delft University of Technology, a two-year MSc programme in Biomedical Engineering has started in September 2004. Although it is a young programme, it is based on a long history of education and research in BME within three collaborating faculties: Faculty of Applied Sciences, Faculty of Electrical Engineering, Mathematics and Computer Science, and Faculty of Mechanical Engineering, Marine Technology and Materials Science. By bundling the BME knowledge in these faculties a broad BME programme could be realised. Additionally, there is a close and intensive collaboration with clinical partners at Leiden University Medical Center (LUMC), Erasmus Medical Center Rotterdam (Erasmus MC), and Academic Medical Center Amsterdam (AMC). The clinical partners participate in the teaching in the first MSc year (LUMC and Erasmus MC), and in the tutoring of the MSc projects in the second year (LUMC, Erasmus MC, and AMC).

99. Engineers Australia - About Us - Colleges - Biomedical - About Us Young biomedical engineer Award 2004 Mr Govinda Poudel Mr Poudel was awardedthe 2004 Young biomedical engineer Award at the EPSM 2004 Conference held http://www.ieaust.org.au/about_us/colleges/biomedical/

About Us Membership Careers Events ... Contact Us Colleges SEARCH OUR SITE: Biomedical About Us What's On Publications Issues ... Contact Us Welcome to the Biomedical College NEWS Call for Nominations - David Dewhurst Award 2005 NovitaTech Snowy Hydro Telecommunications Road Show Australian Society for Medical Research - Professional Development Workshop David Dewhurst Award 2004 - Prof Mark Pearcy ... Upcoming Events Call for Nominations - David Dewhurst Award 2005 The College invites nominations for the 2005 David Dewhurst Award, which is awarded for outstanding service and/or contribution to the profession of Biomedical Engineering. Nominations will close on the 30th June 2005 . Award details can be downloaded HERE . A nomination form and further information can be obtained from the College Secretary. Email: nlenz@engineersaustralia.org.au NovitaTech SnowyHydro Telecommunications Road Show Supported by the College, this series of workshops will showcase and promote how Australians with physical disabilities can gain access to a home or mobile telephone using existing technology. Adelaide - Thurs 5th May Darwin - Tues 10th May Perth - Thurs 12th May Melbourne - Mon 16th May Hobart - Tues 17th May Sydney - Thurs 19th May Canberra - Fri 20th May Newcastle - Tues 24th May Townsville - Wed 25th May Brisbane - Thurs 26th May For all details please visit the Road Show website or Phone 08 8243 8338.

100. Biomedical Engineering The biomedical engineering program (BME) is interdisciplinary in scope. biomedical engineers are concerned with the application of engineering concepts http://www.iastate.edu/~catalog/2001-03/courses/bme.html

Graduate Courses Schedule of Classes Biomedical Engineering (B M E) (Interdepartmental Graduate Program) Supervisory Committee: M. H. Greer, associate professor in charge; E. B. Bartlett, T. R. Derrick, A. B. Flateau, W. D. Franke, R. T. Greer, S. Jeftinija, S. Mallapragada, T. D. McGee, S. P. McLean, P. E. Patterson, R. C. Seagrave, H. Tyler, R. J. Weber, H. Xin The biomedical engineering program (B M E) is interdisciplinary in scope. The participating faculty are from the Colleges of Engineering, Veterinary Medicine, Education and Agriculture. Biomedical engineers are concerned with the application of engineering concepts and analytical techniques to biological and medical problems. They are interested in developing new concepts, instrumentation, and materials for use with living systems. In addition, they seek to understand those phenomena of living systems which have functional capabilities desirable in the design of physical systems. Graduates of the program are able to understand scientific literature, formulate hypotheses, complete independent research or design projects and report their results. They engage in research or design careers in the various fields of biomedical engineering. Undergraduate Study Graduate Study Work is offered for the degrees master of science and doctor of philosophy with a major in biomedical engineering; students taking major work in other areas can minor or comajor in biomedical engineering. Prerequisite to major and minor work in biomedical engineering is an undergraduate degree in one of the fields of engineering, life sciences, physical sciences, or a professional degree in one of the fields of medicine.

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