Biomedical engineering has been one of the instrumental factors in improving healthcare for humans by combining the application of engineering principles with methods to solve medical and biological problems. But what is biomedical engineering exactly? Popularly referred to as bioengineering, it focuses on developing new healthcare systems and technologies by integrating mechanical, electrical, chemical, and life science principles.
Read on to know more about pursuing a career in biomedical engineering– subject brief, top universities, and job prospects.
Biomedical Engineering: Subject Brief
Biomedical engineering is here to stay in the long run, given its array of research applications such as medical imaging, wearable technology, implantable drug delivery systems, and prosthetics.
As a subject, it is a combination of biological sciences and intricate engineering design. The main goal of teaching biomedical engineering is to develop practical engineering solutions for assessing, diagnosing, and treating various medical conditions.
Levels in Which Biomedical Engineering is Offered
Like other major degrees, biomedical engineering courses can also be studied on multiple levels. Top universities in the field offer undergraduate, postgraduate, and doctoral degrees. The biomedical engineering eligibility for an undergraduate degree is that students should have completed their 12th with science subjects like biology, mathematics, and chemistry.
If they wish to go for a doctoral or master level degree program in biomedical engineering, they should have a bachelor’s degree in the same or related field.
Top 10 Universities Offering Biomedical Engineering
Students wishing to pursue a career in biomedical engineering should do so at a top-ranking university to maximize their chances of carving out a successful career and reaching their goals. Here are the top 10 biomedical engineering universities offering a degree in biomedical engineering with approximate tuition fees, subject rankings, the country they are situated in, and course names.
|University Name||Course Name||Country||Approximate Tuition fees|
|Harvard University||PhD in Bioengineering||United States||USD 52,460|
|University of Cambridge||PhD in Biomedical Engineering||United Kingdom||USD 40,737|
|Stanford University||BS in Biomedical Engineering||United States||USD 73,960|
|University of California – Berkeley||Masters in Engineering – Bioengineering||United States||USD 62,390|
|John Hopkins University||BS in Biomedical Engineering||United States||USD 49,200|
|University of Pennsylvania||Master of Biomedical Engineering||United States||USD 32,800|
|University of Michigan – Ann Harbor||MSE in Biomedical Engineering||United States||USD 28,090|
|University of Washington – Seattle||BS in Biomedical Engineering||United States||USD 58,470|
|Northwestern University||BS in Biomedical Engineering||United States||USD 83,840|
|Georgia Institute of Technology||PhD in Biomedical Engineering||United States||USD 41,380|
Academic Cycle: Intakes and Deadlines for Biomedical Engineering
Academic cycles and intakes for biomedical engineering programs depend on the universities. Generally, most universities offer admission for biomedical engineering in three intakes – Fall, Spring, and Summer.
|Fall (starts in September and ends in December)||July 1 – 31|
|Spring (starts in January and ends in May)||September 15 – October 15|
|Summer (starts in April/May and ends in August)||March 1|
Curriculum Across Levels
The curriculum across different levels of study in biomedical engineering will include chemistry, physics, mathematics, and biology fundamentals. In mathematics, students are expected to learn about the use of multivariable calculus and differential equations, along with their implications for finding solutions.
The significant difference from other engineering fields is that the coursework will also have more biological courses. While the curriculum varies across universities, some of the common modules include:
- Molecular Biology
- Fluid Mechanics
- Organic Chemistry
- Cell and Tissue Engineering
- Biosystems and Circuits
- Qualitative Physiology
Job Prospects with Salaries in Biomedical Engineering
Upon completing a program in Biomedical Engineering, graduates will be open to a world of opportunities– both in research and development and academia. They can aim to earn an average of USD 69,125 as a biomedical engineer in the USA. On the other hand, the average pay of a biomedical engineering technician is around USD 58,910.
Future Application of the Subject
The biomedical engineering scope and demand for biomedical engineers is experiencing a surge and is predicted to rise by 23 percent from 2014 to 2024.
Biomedical engineering all over the globe is working to devise painless procedures for medical issues and even tests. In fact, post-pandemic, their vitality is bound to rise. Here are some of the areas in which biomedical engineering is making a mark.
- Printing human organs with biomaterials
- Inventing bioengineered clothing
- Controlling prosthetics with one’s brain
- Fighting obesity with a drug delivery patch
- Combating diseases with nanorobots
- Medical virtual reality
- Robotic surgery
- Miniaturization and 3D Printing
Frequently Asked Questions
Q1. What is biomedical engineering?
Biomedical engineering is the combination of engineering and biological sciences. These programs and areas of study provide discoveries and studies that help develop better devices, solutions, and therapies to aid medical issues.
Q2. What subjects/courses do you need to study to become a biomedical engineer?
Here are some of the subjects you must study to become a biomedical engineer – Physics, Material Sciences, Bio-Mechanics, Chemistry, Life sciences, and Mathematics with Biology.