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Nov 21, 2024
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University General Course Catalog 2022-2023 ARCHIVED CATALOG: LINKS AND CONTENT ARE OUT OF DATE. CHECK WITH YOUR ADVISOR.
Biomedical Engineering, Ph.D.
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Biomedical engineering is an interdisciplinary program offered by the College of Engineering. The program culminates in the doctor of philosophy degree. In this research-oriented program, advanced scientific and engineering techniques are utilized to address modern problems in medicine and biology.
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Contact Information
Bahram Parvin, Ph.D., Graduate Program Director
(775)784-6927
bparvin@unr.edu
bmeadmin@unr.edu
University of Nevada, Reno
Department of Biomedical Engineering, Mail Stop 0260
1664 North Virginia Street
Reno, NV 89557
Graduate Handbook *
Program Objectives/Student Learning Outcomes
- Student will be able to apply knowledge of mathematics, science, and engineering.
- Student will be able to design and conduct experiments as well as to analyze and interpret data.
- Student will be able to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.
Admission Requirements
Candidates must meet the admission requirements of the Graduate School as well as additional requirements of the program.
I. Program Requirements
The curriculum is centered around “areas of proficiency” related to research activities. Students must demonstrate proficiency in four areas, where at least one area is in the engineering or physical sciences and at least one other area is in the medical or life sciences.
In addition to the Graduate School requirements and the requirements outlined below, doctoral students must complete:
- a research rotation,
- communications courses, and
- presentation of work at a national or international scientific meeting.
All courses of study must be approved by a student advisory committee and the program director. Students are encouraged to identify research interests and faculty mentors as early as possible during the program.
A. Required Course (3 units)
B. Additional Coursework (44 units)
Courses may be selected from the list below. Final course selection for each “area of proficiency” must be approved by the student advisory committee and the program director.
C. Comprehensive Exam (1 unit)
The comprehensive examination consists of writing and presenting a grant proposal. This unit will count towards the required thirty units 700-level coursework.
D. Dissertation (24 units)
All students must pass an oral defense of dissertation research.
II. Total Units (72 units)
Undergraduate Prerequisites
Ideally, the applicant’s background would include:
- two semesters of biology or physiology,
- two semesters of physics or biophysics,
- two semesters of chemistry or biochemistry,
- calculus (including differential equations), and
- proficiency in at least one computer programming language.
Students who are admitted with a deficiency in any academic area must complete required courses early in the graduate program.
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