Bulletin Archive
This archived information is dated to the 2008-09 academic year only and may no longer be current.
For currently applicable policies and information, see the current Stanford Bulletin.
This archived information is dated to the 2008-09 academic year only and may no longer be current.
For currently applicable policies and information, see the current Stanford Bulletin.
The Master of Science in Bioengineering requires 45 units of course work. The curriculum consists of core bioengineering courses, technical electives, seminars and unrestricted electives. Core courses focus on quantitative biology and biological systems analysis. Approved technical electives are chosen by the student in consultation with his/her graduate adviser, and can be selected from graduate course offerings in mathematics, statistics, engineering, physical sciences, life sciences, and medicine. Seminars highlight emerging research in bioengineering and provide training in research ethics. Unrestricted electives can be freely chosen by the student in association with his/her adviser.
The department's requirements for the M.S. in Bioengineering are:
BIOE 300A. Molecular and Cellular Bioengineering
BIOE 300B. Physiology and Tissue Engineering
BIOE 301A. Molecular and Cellular Bioengineering Lab
BIOE 301B. Clinical Needs and Technology
These courses, together with the approved technical electives, should form a cohesive course of study that provides depth and breadth.
Students are assigned an initial faculty adviser to assist them in designing a plan of study that creates a cohesive degree program with a concentration in a particular bioengineering focus area. These focus areas include, but are not limited to: Biomedical Computation, Regenerative Medicine/Tissue Engineering, Molecular and Cell Bioengineering, Biomedical Imaging, and Biomedical Devices.
To ensure that an appropriate program is pursued by all M.S. candidates, students who first matriculate at Stanford at the graduate level (a) submit an adviser approved Program Proposal for a Master's Degree form to the student services office during the first month of the first quarter of enrollment and (b) obtain approval from the M.S. adviser and the Chair of Graduate Studies for any subsequent program change or changes. It is expected that the requirements for the M.S. in Bioengineering can be completed within approximately one year. There is no thesis requirement for the M.S.
Due to the interdisciplinary nature of Bioengineering; a number of courses are offered directly through the Bioengineering Department, but many are available through other departments. See respective department listings for course descriptions.
BIOC 218. Computational Molecular Biology (Same as BIOMEDIN 231.)
BIOMEDIN 210. Introduction to Biomedical Informatics: Fundamental Methods (Same as CS 270.)
BIOMEDIN 217. Translational Bioinformatics (Same as CS 275.)
CHEMENG 450. Advances in Biotechnology
EE 369A. Medical Imaging Systems I
EE 369B. Medical Imaging Systems II
EE 369C. Medical Image Reconstruction
ME 280. Skeletal Development and Evolution
ME 287. Soft Tissue Mechanics
ME 381. Orthopaedic Bioengineering
ME 382A. Medical Device Design
ME 382B. Medical Device Design
RAD 226. In Vivo Magnetic Resonance Spectroscopy and Imaging
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