The Biomedical Engineering field has been getting a lot of interest in the past decade. However, students and parents are not too sure about the field of study and career prospects. People sometimes also get confused between Biomedical Science and Biomedical Engineering. This article will give you an exhaustive overview of Careers in Biomedical Engineering – subject areas, specializations, top study abroad destinations & universities, and job prospects after a degree in biomedical engineering.
Biomedical Engineering, also known as Bioengineering, is an applied field of science and engineering at the intersection of engineering, biology, healthcare, and medicine. The field of biomedical engineering involves the application of principles of engineering (mechanical, electrical, electronics, computer science, and chemical engineering) and basic sciences (physics, mathematics, chemistry, and biology).
The aim of the field is to develop systems, equipment, and devices in order to solve clinical problems – both diagnostics and therapeutics. Besides, the diagnosis and treatment of diseases, biomedical engineering also plays a big role in alleviating, rehabilitation, and compensating for disabilities and/or injuries.
This is a very hard-core technical field. So, biomedical engineering graduates need to possess an in-depth understanding of human biology (living systems) and engineering, along with strong technical and analytical skills.
Some of the examples of applications of biomedical engineering are:
Biomedical engineers usually get employed in the industry (healthcare, medical instrument, biomedical, pharmaceutical), hospitals, research organizations (including CROs), academia, and the government sector. Biomedical engineers often liaise and/or coordinate with medical doctors, clinicians, biomedical scientists, and healthcare professionals. Biomedical engineers use their expertise in engineering, life science, and medical fields.
Besides technical roles (such as R&D, Process Development, Product development, QC/QA, and regulatory affairs), biomedical engineering graduates also work as marketing advisors and management consultants in the industry. It is also common for biomedical engineering graduates to have advanced training and qualifications in other fields depending on one’s skill-set and career interests. For instance, if you want to work in the core clinical field (direct patient care or clinical research), you can pursue a Medicine degree at the graduate level, after finishing an undergraduate degree in Biomedical Engineering. Sometimes, undergraduate medical students or MBBS graduates also switch towards biomedical engineering. Many biomedical engineers possess an M.D. Degree, thereby combining their knowledge of medicine and engineering.
The biomedical engineering field does overlap with the field of biomedical science(s). But, there is a significant difference. While biomedical engineers work around instrumentation and engineering; biomedical scientists put more focus on biological & life sciences, chemistry, and medicine.
Biomedical scientists usually work in the laboratory. They handle biological samples (blood, urine, cells, and tissues) and use a wide range of laboratory equipment ranging from test tubes, beakers, and pipettes to computers and hi-tech equipment.
Some of the common job roles and responsibilities of a biomedical scientist are:
– Testing and screening for lifestyle and infectious diseases
– Investigating and understanding the disease mechanisms, profile, and progression
– Conducting research on finding new, effective, and innovative ways to diagnose diseases as early as possible
– Working towards the discovery and development of novel treatments, which could be preventive (vaccines) and/or therapeutic (drugs and medicines)
Biomedical Science deals with human biology, pathology, biochemistry, molecular and cell biology, genetics, pharmacology, immunology, applied or clinical chemistry, microbiology, epidemiology, and biomedical engineering. Those who are interested in biomedical science, please refer to my post on Biomedical Science Jobs and Careers.
In 2011, Biomedical Engineering topped the list of Careers with the fastest-growing jobs. In 2015, biomedical engineering featured among the best 11 college majors for job prospects. The demand is on a rise, as biomedical engineering bagged the No. 2 position in the list of Best College Majors for Lucrative Career 2016-2017. In the US, as a fresh college graduate (or MS degree holder), you can expect to earn around USD $60, 000 per year. With five to ten years of experience, you can expect an annual paycheck of USD $96, 000. The figures can go for Ph.D. degree holders.
Read the story of Niren Murthy, who chose the field of Biomedical Engineering after getting to know the unlimited potential of the biomedical engineering field.
In order to study biomedical engineering at the undergraduate level, you need to have a PCM or PCB combination at the 10+2 level. It would be advantageous if you have got a PCMB combination. If you are not sure if your strengths, skills, and goals align with the biomedical engineering career path or not, try our Free Career Test or sign up for a Personalized Counselling Session.
Caution for those who want to pursue Bachelors in Biomedical Engineering in India
If you are really interested in the field of biomedical engineering and want to have an accomplished career, don’t go for bachelor’s in Biomedical Engineering in India straightaway. It’s better you do your Bachelors in Electronics, Mechanical, or Electrical Engineering from India, and then go for MS in biomedical engineering in abroad. If you are really keen to do a Bachelors in Biomedical Engineering, then abroad will be a better option. The main problem in India is that the infrastructure and labs are still not up to the standards. Getting a job after pursuing Bachelor in Biomedical Engineering in India is quite tough in India (and even many other Asian countries).
The USA would be one of the best destinations for undergraduate studies in biomedical engineering. Other top destinations for biomedical engineering would be Germany, Canada, the UK, Switzerland, Australia, Singapore, Netherlands, and Sweden.
In the US, for the first two years, you would study basic sciences and principles of engineering. The interdisciplinary nature and flexibility of the US education system will also allow you to switch engineering disciplines. With time familiar with the key concepts and terminology of human anatomy and physiology, as well as cell biology, thermodynamics, fluid mechanics, biomechanics, and computing and design for biomedical engineers.
Later, you will get to study and undergo training for the advanced level of core biomedical engineering. You study other modules on engineering and biomedical subjects such as engineering mathematics, mechanics, biomaterials, electronic engineering, engineering design, robotics, human anatomy, physiology, cardiovascular system, and neuroscience. Practicals will involve biomedical science, engineering design, product design, programming, computer simulations, and hospital (or clinic) visits.
Most of the foreign universities (especially the US, UK, and Canada) will also offer the opportunity of internships and industrial placements at the undergraduate level. Due to the interdisciplinary nature and complexity of the field, you do need to have hands-on and real-world experience for a considerable time period say 3 – 9 months; unlike a day-visit to a company or one month of industrial training.
Johns Hopkins University
Georgia Institute of Technology
University of California – San Diego
Carnegie Mellon University
Columbia University
Duke University
MIT
The University of Texas at Austin
University of Virginia
Washington University – St. Louis
At the postgraduate level (MS or Ph.D.), you can specialize in a further specialized area of biomedical engineering. Let’s have a look at those exciting fields.
Bioinstrumentation involves the application of electronics and instrumentation techniques to develop devices for the diagnosis and treatment of diseases.
Biomechanics It includes the study of motion, material deformation, fluid flow within the human body (and in devices), and transport of chemical constituents across biological systems.
Biomaterials describe both living tissue and materials used for implantation. Understanding the properties of the living material is vital in the design of implant materials. The biomaterials are designed to integrate with the biological systems (organs, tissues, and blood).
Systems Physiology is the field of biomedical engineering in which engineering strategies, techniques, and tools are used to gain a comprehensive and integrated understanding of the function of living organisms ranging from bacteria to humans. Later, the modeling comes into play for the analysis of experimental data and in formulating mathematical descriptions of physiological events.
Clinical Engineering is the application of technology for health care in hospitals. The clinical engineer is a member of the health care team along with physicians, nurses, and other hospital staff. Clinical engineers are responsible for developing and maintaining the computer database of medical instrumentation and equipment records and for the purchase and use of supplicated medical instruments.
Rehabilitation Engineering is a new and growing specialty area of biomedical engineering. Rehabilitation engineers expand capabilities and improve the quality of life for individuals with physical impairments.
Medical Imaging basically involves taking pictures inside the human body to diagnose diseases.
Tissue Engineering revolves around creating tissues and tissue materials to replace failing and compromised bodily functions.
Neural Engineering focuses on the interaction between the nervous system of the body and any artificial medical device. It is one of the coolest and most exciting stuff within the field of biomedical engineering.
Computational Modelling deals with simulations and investigating (including visualization) of what’s going on in our cells and organs. This is another rocking field of biomedical engineering.
You might also like to read about the Top 10 MS Specializations to Study Abroad
Have you heard about CEMACUBE? CEMACUBE (Common European MAster’s CoUrse in Biomedical Engineering) is an excellent program and is one of the best Master’s programs in the world for Biomedical Engineering. If you require professional assistance with applications and/or admission, please refer to our services.
Healthcare is a necessity. With the increasing complexity of our lifestyle, environmental factors, and the increase of the aging population – there is a growing need for advanced medical technologies. Besides, the increasing overlap between medicine and technology, the field of biomedical engineering will be getting more popular in the coming future.
Last but not the least, we are now getting into the era of Digital Health and Personalized Medicine. Have you heard about Elon Musk’s plan about self-driving cars that can take the driver/owner to a nearby hospital in case of a heart attack or stroke? Read about Elon Musk’s Masterplan on Digital Health, and the news on Tesla’s Autopilot Car that took the Owner to the Hospital. Thus, Biomedical Engineering is all about the advancement of the quality of life and healthcare.
If you have got any further queries about higher studies, career roadmap, or jobs & careers in biomedical engineering, please feel free to post your query in the comment box below. Don’t forget to share the article, and let others know about this exciting field of biomedical engineering.
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