## [Biomedical Engineering ](/programs/undergraduate/biomedical-engineering) Students interested in the biomedical engineering program should select the Bachelor of Applied Science (Engineering) on the [UBC admission application](http://you.ubc.ca/). Students will need to complete a supplementary form to express their interest in biomedical engineering. The Faculty of Applied Science will notify applicants at a later time when the supplementary form is available. [Start your application](https://myapplication.ubc.ca/apply) [Learn about the Pre-BME Timetable](/programs/undergraduate-programs/biomedical-engineering/pre-biomedical-engineering-first-year "Pre-Biomedical Engineering First Year Timetable") The new biomedical engineering program is offered in addition to a biomedical option available in the Departments of Electrical & Computer Engineering and Mechanical Engineering. For details on the biomedical option, visit [Biomedical Engineering Options](/programs/undergraduate-programs/biomedical-engineering/biomedical-engineering-options "Biomedical Engineering Options"). [Read about the BME Options](/programs/undergraduate-programs/biomedical-engineering/biomedical-engineering-options "Biomedical Engineering Options") Please review [BME FAQs](https://bme.ubc.ca/education/faq/) if you have any questions. [ UBC Biomedical Engineering logo ![UBC School of Biomedical Engineering logo](/sites/default/files/styles/max_325x325/public/2026-02/ubc-school-of-biomedical-engineering-logo-shortname-521x28.png.webp?itok=VOH_aA0X) ](https://bme.ubc.ca "UBC Biomedical Engineering logo") - Why study this program - Your future - Enhance your degree ##### Why study this program ## Why study this program Biomedical Engineering graduates are able to work in a variety of different fields. Common areas of focus they can pursue include: cell-based therapeutics, regenerative medicine, gene therapy, engineered organs, imaging technology: X-Rays, CT scans, ultrasound, MRI; neural engineering, wearable technology, surgical implants, surgical instrumentation, data mining, machine learning, drug design and gene finding to improve patient outcomes related to disease and pathophysiology. ## Courses & specializations The Pre-Biomedical Standard Time Table allows students to experience the foundational first year while beginning to dive deeper into biomedical engineering topics. Beginning in third year, you can [specialize](https://bme.ubc.ca/education/undergraduate-program-entry/2021w-after/) your technical electives, giving you an excellent background for a career in the ever-changing areas of industry, healthcare or research. For example, you may want to take courses related to the five following areas: - Biomechanics - Cellular and Molecular Engineering - Biomedical Informatics - Biomaterials - Signals and Systems [Curriculum including first year](http://www.calendar.ubc.ca/vancouver/index.cfm?tree=12,195,272,1612) [Course descriptions](https://vancouver.calendar.ubc.ca/course-descriptions/subject/bmegv) ### Sample courses Year 1Pre-Biomedical Standard Time TableYear 2 BMEG\_V 245The Fundamental Units of Life: From Cells To SystemsMATH\_V 253Multivariable CalculusBMEG\_V 201Technical Communication for Biomedical EngineersBMEG\_V 230Biomechanics IYear 3 BMEG\_V 310Introduction to BioinformaticsCHEM\_V 233Organic Chemistry for the Biological SciencesBIOC\_V 202Introductory Medical BiochemistryBMEG\_V 357Biomedical Engineering Design IIYear 4 BMEG\_V 455Professionalism and Ethics in Biomedical EngineeringBMEG\_V 457Biomedical Engineering Design ProjectSTAT\_V 300Intermediate Statistics for Applications## Enhance Your Education (further education) Graduates of the Biomedical Engineering program looking to continue their education can pursue professional programs and graduate studies. The analytical and problem-solving skills students gain from an undergraduate engineering degree translate well into the qualities needed for Medical and Law School. Students may also want to pursue a Master of Applied Science or Master of Engineering degree. ##### Your future ## Careers With an annual provincial median salary of $81,338 ([source](https://www.egbc.ca/getmedia/4cb4aeec-8894-4dd8-84a8-6366edd7f9e9/APEGBC-Compensation-Survey-2016_WEB_FINAL.pdf.aspx)) and an expected growth rate of 1.7% over the next 5 years ([source](https://www.workbc.ca/career-profiles/other-professional-engineers#career_overview#)), Biomedical Engineering graduates are well positioned to pursue successful careers in medical institutions, research facilities, medical equipment and pharmaceutical manufacturers, corporate research and development labs, consulting engineering firms, and governments ([source](https://www.workbc.ca/career-profiles/other-professional-engineers#career_overview)). Common career titles ([source](https://noc.esdc.gc.ca/)) for Biomedical Engineering graduates include: Biomedical Engineer or Clinical Engineer. ## Employers Both current students and graduates are able to work for a wide range of employers. Some of the biggest employers of UBC Biomedical Engineering students over the past several years include Vancouver Coastal Health, Kardium and Verathon Medical. ## Alumni ##### Enhance your degree ## Design Teams & Clubs ### Design Teams There are over 30 Engineering Design Teams at UBC. Joining an engineering design team is an excellent opportunity for students from all disciplines to collaborate on a wide variety of design projects and gain relevant teamwork, leadership, and technical skills transferrable to future careers. Design teams related to Biomedical Engineering include: - [Biomedical Engineering Student Team (BEST)](https://www.bme.ubc.ca/undergraduate/community/) - [UBC BIOMOD](http://ubcbiomod.com/) See full list of UBC’s [Engineering Design Teams](https://engineering.ubc.ca/engineering-design-teams-list). ### Clubs There are many ways engineering students can get involved, including joining clubs relevant to their discipline. Relevant clubs include: - [Biomedical Engineering Undergraduate Student Association](https://www.ubcbiomed.com/) ## Research The School of Biomedical Engineering is involved in research related to molecular and cellular engineering and synthetic biology, genomics and nano-devices, immune-engineering and advanced biomaterials, regenerative medicine, artificial intelligence and simulation systems with biomedical application, visualization and imaging from nanomolecular to physiological scales. These topics are explored in the following areas of research: Cellular & Molecular Engineering - Regenerative Medicine - Synthetic Biology - Immune-Engineering Imaging & Computational Biology - AI & Multiscale Imaging - Bioinformatics/Systems Biology - Computational Modelling Human Interfacing Devices - Therapeutic Delivery & Nanodevices - Bionics & Biosensors - Biomaterials - Biomechanics & Injury Prevention ## Minors & Dual Degrees Engineering students are able to complement their studies with 5 [Minors](https://academicservices.engineering.ubc.ca/degree-planning/minors-dual-degrees/) available or a [Dual Degree](https://academicservices.engineering.ubc.ca/degree-planning/minors-dual-degrees/) with Arts. Students interested in a minor can apply to their chosen option in their third year of study. A minor or dual degree will likely extend your degree past 4 years. ## Co-op Participation in the Applied Science [Co-op](https://coop.engineering.ubc.ca/prospective-students/) Education program gives students the opportunity to gain up to 20 months of paid relevant work experience during their degree. This experience provides an excellent opportunity for students to explore different industries, apply their studies to the working world, and create connections with future employers. The Co-op program will extend your four year degree to five years. Participation is optional and students apply to join Co-op in their second year of study. ## International experiences Students can embark on an unforgettable experience abroad while earning credits towards their engineering studies. Opportunities include the Coordinated International Experience (CIE) exchange program, the Go Global exchange program, and the Global Engineering Leadership courses. The [CIE program](https://cie.apsc.ubc.ca/) is customized for Applied Science students and features 18 international partner institutions across 3 regions. All of the international experiences allow students to build an international network of peers, professors, and potential employers.