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CU Boulder Biomedical Engineering Master’s

The Biomedical Engineering graduate program at CU Boulder is a collaborative effort of world-renowned faculty, industry and community partners all focused on providing students with the educational experience, resources and broad opportunities necessary to become leaders in the biomedical engineering profession.

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If you are learning about cu boulder biomedical engineering master’s for the first time, the subject might seem overwhelming to those who haven’t explored the subject before, but you are likely to find it fascinating. 

Read more about cu boulder biomedical engineering phd, cu boulder mechanical engineering, cu boulder international graduate admissions, and cu boulder biomedical engineering minor. You can also find more resources related to cu boulder biomedical engineering ranking on collegelearners.

CU Boulder Engineering Admission Requirements

Biomedical Engineering is an exciting, multidisciplinary field that lies at the interface of medicine, biology and engineering.

Biomedical engineers use engineering principles to analyze and solve problems in biology and medicine, providing an overall enhancement to healthcare. Biomedical engineers create technology to save lives and improve the quality of life. Much of the equipment in hospitals and clinics across the globe was designed, built and tested by biomedical engineers. At the same time, biomedical engineers employ concepts learned from biology and medicine to generate new biomimetic engineering designs in fields such as robotics and artificial intelligence.

Despite the advances in medicine to date, many injuries and diseases still lead to high rates of morbidity and mortality. Current research in biomedical engineering at CU Boulder focuses on innovative areas such as biomechanics, medical devices, imaging and diagnostics, and therapeutics. Our goal is to create technology—drugs and devices—to treat these injuries and illnesses safely and effectively.

Designated as the #1 metropolitan area with the highest concentration of BME jobs in 2018 (U.S. Bureau of Labor Statistics), CU Boulder offers abundant opportunities to advance your professional and academic careers. With our strong connections to CU Anschutz and national labs such as the National Institute of Standards and Technology, students also have opportunities to impact real-world research.

CU Boulder Biomedical Engineering Master’s

CU Boulder Biomedical Engineering Master’s Research Areas

Research topics range from studying the skeletal mechanical environment and its regulation of cancer, to light-matter interaction in nanoscale materials for biomedical imaging, to developing strategies for rationally engineering next-generation smart antimicrobials that can eliminate multi-drug resistant superbugs.

Our students and faculty pursue academics and research in the following focus areas:

Biomechanics
Medical Devices
Imaging and Diagnostics
Therapeutics

CU Boulder Biomedical Engineering Master’s Minor Program

The Biomedical Engineering Minor is open to undergraduate students rostered in the College of Engineering and Applied Science who are interested in an exciting, multidisciplinary field that lies at the interface of medicine, biology and engineering.

Biomedical engineers use engineering principles to analyze and solve problems in biology and medicine, providing an overall enhancement to healthcare. At the same time, biomedical engineers employ concepts learned from biology and medicine to generate new engineering designs.

Current research in biomedical engineering focuses on innovative areas such as biomechanics, biomaterials, medical devices and imaging.

CU Boulder Biomedical Engineering Master’s Course Requirements

Completion of 18 credit hours (typically 6 courses) is required for the minor, distributed as follows:

  • BMEN 2000 Biomedical Engineering Gateway (3 credit hours):
    • This course cannot count towards your major degree requirements
    • Starting in Fall 2021, this course will require a pre or co-requisite course of Biology (MCDB 1150 or CHEN 2810).
      • MCDB 1150 or CHEN 2810 can be used towards the elective requirement as long as the parameters below are met.
      • Please consult your major advisor to discuss how this fits into your graduation plan.
    • This course utilizes Matlab.  Prior experience using Matlab is ideal. Students without Matlab experience may need to spend additional time learning Matlab to complete certain assignments.  Resources will be made available.
  • 15 elective credit hours (typically 5 courses)*

Requirements for the minor are met by completing the required gateway course and 15 elective credit hours identified below.  Here are additional guidelines regarding the requirements:

  • At least 12 credit hours must be upper-division (3000 or higher level)
  • Up to 9 credit hours can be taken outside of engineering (i.e. IPHY, MCDB, PHIL)
  • Relevant Independent Study coursework can be petitioned
  • 5000-level courses are allowed where undergraduate students are eligible to enroll
  • Prior coursework may be transferred from other institutions with approval.
  • At least 9 credit hours need to be taken on the CU-Boulder campus- at least 6 credit hours of which must be at the upper-division level. 

cu boulder biomedical engineering ranking

CU Boulder’s College of Engineering and Applied Science is a tier-one professional school—one of the top-ranked engineering schools in the nation. We focus on innovation and entrepreneurship, preparing students for leadership opportunities, starting businesses and designing solutions to global problems. Through the college’s dynamic engagement with strong, global industry partners, CU Boulder grads are actively involved in hundreds of life-changing programs. 
 

No. 1

U.S. City for
tech start-up

According to a joint report by the technology policy coalition Engine and the Ewing Marion Kauffman Foundation.

No. 1

College
Destination City

The American Institute of Economic Research ranked Boulder the No. 1 small city on its College Destinations Index.

Top 100

Value in Higher
Education

Kiplinger’s Personal Finance ranks CU Boulder among the top 100 values in higher education.

3 Top 10

PhD
programs

The National Research Council
ranked three CU Boulder
Engineering doctoral programs
in the top 10.

U.S. News & World Report Rankings

Undergraduate Public Rankings2022
Aerospace Engineering  6th
Environmental Engineering  9th
Chemical Engineering  14th
Civil Engineering17th
Computer Science18th
Mechanical Engineering18th
Electrical Engineering19th
Undergraduate Engineering Programs18th
Graduate Public Rankings2022
Aerospace Engineering  7th
Environmental Engineering  8th
Applied Math*8th
Chemical Engineering  10th
Computer Engineering 13th
Civil Engineering13th
Mechanical Engineering14th
Biological Engineering21st
Electrical Engineering21st
Biomedical Engineering22nd
Computer Science*22nd
Materials Science and Engineering24th
Graduate Engineering Programs  13th

The rankings, published annually by U.S. News and World Report, are based on a survey of more than 200 engineering schools nationwide that grant doctoral degrees. Specialty rankings are not available in all disciplines at the undergraduate level, and not all disciplines are ranked every year. 

Sample Timeline for Student Earning the Minor

SemesterTask
Sophomore FallAdmission to Biomedical Engineering Minor
Sophomore SpringBiomedical Engineering Gateway Course
Junior-Senior yearsTechnical Elective Courses

ms in biomedical engineering requirements

Selected admitted students are invited to participate in the minor.  Otherwise, admission to the minor is by application. Students must have a minimum CU cumulative GPA of at least 3.0 to apply. Students can apply at any time and will be notified of their admission status on a rolling basis.

Grade Requirements

A grade point average (GPA) of 2.250 or better is required in the courses that are used to satisfy the requirements for this minor. Each individual course that is counted towards these degree requirements must be passed with a D- or better. Note, however, that a C- or better is required in all prerequisite courses to move on to a subsequent course.

*Elective Courses for Biomedical Engineering Minor

Choose any 5 additional elective courses (4 must be upper-division) from below. This list may evolve over time as new courses are developed/offered. Some of the courses below have course prerequisites which students in the minor will need to fulfill prior to enrollment—consult the online University Course Catalog for guidance.

ENGINEERING ELECTIVES:

Applied Math Courses

Course NumberTitle
APPM 3050Scientific Computing
APPM 4390Modeling in Math Biology
APPM 4720Mathematical Computational Biology                 

Aerospace Engineering Courses

Course NumberTitle
ASEN 3036Intro to Human Spaceflight
ASEN 3046Intro to Humans in Aviation
ASEN 4128Human Factors in Engineering and Design               
ASEN 5016Space Life Sciences

ATLAS Courses

Course NumberTitle
ATLS 4519/5519Biodesign                                                     
ATLS 4519/5519Human-Machine Interaction of the Future

Chemical Engineering Courses

Course NumberTitle
CHEN 2810Biology for Engineers
CHEN 4801Pharmaceutical Biotechnology
CHEN 4802Tissue Engineering & Medical Devices
CHEN 4803Metabolic Engineering
CHEN 4805Biomaterials
CHEN 4820Biochemical Separations
CHEN 4830Biokinetics
CHEN 4838Protein and Enzyme Engineering                          

Computer Science Courses

Course NumberTitle
CSCI 2270Data Structures
CSCI 3104Algorithms
CSCI 3352Biological Networks                             
CSCI 4314Dynamic Models in Biology                                  
Graduate | UBC Mechanical Engineering

Electrical Engineering Courses

Course NumberTitle
ECEN 2010Special Topics: Intro to Elect Eng in Biomed
ECEN 4011Design of Implantable Medical Devices
ECEN 4021  Engineering Applications in Biomed
ECEN 4120Neural Network Design
ECEN 4005/5005Special Topics: Organic Electronic Devices
ECEN 5005Special Topics: Biophotonics
ECEN 5021Special Topics: Engineering Applications in Biomed
ECEN 5022Special Topics: Neuromodulation
ECEN 5341Bioelectromagnetics

Mechanical Engineering Courses

Course NumberTitle
MCEN 4117/5117Anatomy & Physiology for Engineers
MCEN 4127/5127Biomedical Ultrasound
MCEN 4133/5133Intro to Tissue Biomechanics
MCEN 4137Anatomy & Physiology for Engineers 2
MCEN 4154Biocolloids and Biomembranes
MCEN 4064/5064Soft Machines
MCEN 4228/5228Special Topics: Design of Coffee
MCEN 4228/5228Special Topics: Materials and Devices in Medicine
MCEN 4228Special Topics: MicroNanoBio
MCEN 4228Special Topics: Surface Forces in Biology
MCEN 4228/5228Special Topics: Mechanics of Soft Matter
MCEN 4228/5228Special Topics: Intro to Microfluidics
MCEN 4228/5228Special Topics: Modeling of Human Movement
MCEN 4228/5228Special Topics: Mechanics of Cancer
MCEN 4228/5228Special Topics: Biofluids at the Macro Scale
MCEN 4228/5228Special Topics: Food & Alcohol in the Ancient World 
MCEN 4228/5228Special Topics: Regenerative Bio/Tissue Repair
MCEN 4228Special Topics: Mechanical Devices in Medicine
MCEN 4228Special Topics: Bioinspired Design
MCEN 5228Special Topics: Medical Device Design
MCEN 5228Special Topics: Medical Robotics
Biomedical Mechanical Engineering | Faculty of Engineering | University of  Ottawa

*Most MCEN 4228 Special Topics that are approved for the Mechanical Engineering Biomed Option will count for this minor.

NON-ENGINEERING ELECTIVES:

Engineering Honors Course

Course NumberTitle
EHON 3843Humanities and Medicine                                            

Engineering, Ethics and Society Course

Course NumberTitle
ENES 3430   Ethics of Genetic Engineering                           

Integrative Physiology Courses

Course NumberTitle
IPHY 3410Intro to Human Anatomy                                   
IPHY 3415Human Anatomy Lab
IPHY 3430Intro to Human Physiology                                
IPHY 3800Forensic Biology
IPHY 4540Biomechanics
List of Biomedical Engineering Salaries Worldwide

Molecular, Cellular, and Developmental Biology Courses

Course NumberTitle
MCDB 1150Intro to Cellular and Molecular Biology
MCDB 3000Synthetic Biology: Engineering Biomolecular Systems in the Laboratory    
MCDB 3150Biology of the Cancer Cell                                   
MCDB 3135Molecular Biology
MCDB 3333Biomed Innovations and Discoveries                        
MCDB 4410Human Molecular Genetics
MCDB 4520Bioinformatics and Genomics

Philosophy Course

Course NumberTitle
PHIL 1160Intro to Medical Ethics
PHIL 3160Bioethics                                                                  

Additional Course Information

In addition to the courses listed above, there may be special topics courses offered which are suitable for the requirements of this minor. Also, some MCDB 2000 level courses may be petitioned but must be pre-approved. 

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