Within the last two decades, medicine has undergone significant changes. Nowadays, patients have convenient access to medical care at all times, can order medicines from anywhere, and can maintain medical records on scalable databases that can be accessed by a physician from anywhere in the world. We have improved healthcare treatments, and we have access to better technologies that enable us to diagnose diseases and illnesses more quickly, monitor patients in real time, and provide therapeutic treatments.
What is Biomedical Engineering?
Medical engineering is a relatively new branch of engineering that combines medical science and engineering principles to bridge the gap between engineering and biological science. The biomedical engineering field is high-paying and low-stress, according to Forbes. The direct impact it has on human health makes it unique among engineering disciplines. The biomedical engineering field has gained widespread recognition since the development of advanced technologies that can be used for diagnosing and treating various illnesses and diseases in a quicker and more effective manner.
As a result of biomedical engineering, several revolutionary concepts have been developed such as the development of artificial organs, the manufacture of surgical robots, the design, development, and targeted delivery of pharmaceutical drugs, and the development of prosthetic limbs. Students preparing for a degree in biomedical engineering must possess strong competencies in subjects such as mathematics, physics, chemistry, and computer science. Currently, it is one of the highest-paying engineering professions in the world with a starting salary of just over USD 62,000.
Applications of Biomedical Engineering
Due to the development of better digital technologies and related equipment, biomedical engineering has seen an increase in applications over the past few decades. Below are a few examples of popular and relevant biomedical engineering applications.
- Bioinformatics
- Mobile medical devices
- Telemedicine
- Tissue engineering
- Stem cell research
- Biomechanics
- Biomedical sensors
- Bionics
- Development of medical equipment
- Genetic engineering
Top Places To Study Biomedical Engineering
Since the demand for biomedical engineers is rising, it is crucial to learn about the top places to study biomedical engineering. Below are some of these universities and institutions.
University/InstitutionLocationTop Programs on Biomedical Engineering
| Johns Hopkins University | Baltimore, Maryland, U.S.A | Undergraduate, graduate and PhD programs in Biomedical Engineering |
| Massachusetts Institute of Technology | Cambridge, Massachusetts, U.S.A | Undergraduate and Graduate programs in Bioengineering |
| University of Cambridge | Cambridge, U.K | Undergraduate in Bioengineering |
| ETH Zurich-Swiss Federal Institute of Technology | Zurich, Switzerland | Masters in Biomedical Engineering |
| Georgia Institute of Technology | Atlanta, Georgia, U.S.A | Bachelors, Masters, and PhD programs in Biomedical Engineering |
| Stanford University | Stanford, California, U.S.A | Undergraduate, Masters and PhD programs in Bioengineering |
| University of California-Berkeley | Berkeley, California, U.S.A | Undergraduate, Graduate and PhD programs in Bioengineering |
| University of Michigan-Ann Arbor | Ann Arbor, Michigan, U.S.A | Undergraduate and Graduate programs in Biomedical Engineering |
| Duke University | Durham, North Carolina, U.S.A | Undergraduate, Masters and PhD in Biomedical Engineering |
| University of California-San Diego | San Diego, California, U.S.A | Undergraduate and Masters programs in Bioengineering |
| University of Pennsylvania | Philadelphia, Pennsylvania, U.S.A | Undergraduate program in Bioengineering and Biomedical Science |
| Cornell University | Ithaca, New York, U.S.A | Undergraduate (Bachelor of Science), graduate (Master of Engineering), and PhD programs in Biomedical Engineering |
| Nanyang Technological University | Singapore, Singapore | Undergraduate programs in Chemical and Biomedical Engineering |
| University of Oxford | Oxford, United Kingdom | Undergraduate programs in Engineering Science with specialization options |
| Imperial College London | London, U.K | Undergraduate programsMSc Biomedical Engineering |
In the future, biomedical engineering will transform how we see healthcare. As more advancement occurs in the field, we can expect easier and more equal access to quality healthcare, as well as advancements in medical technology. Several illnesses and diseases will be diagnosed and treated differently with this technology. In the future, perhaps we’ll be able to replace an organ in a human body as easily as we replace a battery.
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