What Can I Become with a Master's in Biomedical Engineering? Decide what to study

Biomedical engineering is a field that combines biology principles with technological or mechanical methods and the final result is a medical device that literally prevent illnesses, improves and saves peoples’ health. Notable examples of the impressive results of biomedical engineering are the x-ray machines, artificial kidneys or cardiac pacemakers.

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If you have a keen interest in mathematics and science, and you’d like to be the next creator that invents a medical machine and positively impacts the healthcare industry, then a degree in biomedical engineering might be the right study choice for you.

What kind of jobs can you embrace after completing a degree in biomedical engineering? Common careers include biomechanical engineer, rehabilitation engineer, clinical engineer, bioengineering researcher and you can find employment in hospitals, medical equipment manufacturers, university research departments, rehabilitation charities and various research units.

Popular countries to pursue a Master’s degree in biomedical engineering
Career opportunities for biomedical engineering graduates

Through a Master's programme in biomedical engineering, you can develop extensive knowledge and understanding of complex medical problems. The knowledge and skills will enable you to master the interface between living and engineered systems. The field of biomedical engineering is among the top career paths offering multiple growth prospects.

Find and compare Master programmes in biomedical engineering

1. Biomechanical engineer

Biomechanical engineers will have to integrate mechanics in solving medical or biological problems. Your work will involve focusing on developing innovative technology to enhance the lives of patients. Replacement heart valves, artificial hearts, artificial hips, and artificial kidneys are all the results of efforts made in the field.

The work of a bioengineer can imply building customized devices for special health care or research needs and even developing nanotechnology or micro-machines to solve complex medical problems at cellular level. An example would be building a device that repairs the damage inside the cancerous cells of an organ.

2. Rehabilitation engineer

Rehabilitation engineering is one of the latest specialty areas in biomedical engineering. If you choose to specialize in this sub-field, you can become a rehabilitation engineer and help in improving the ability and quality of life for physically-impaired individuals.

Rehabilitation engineers produce technology or treatments ideal for each individual or group of individuals, especially people with disabilities. They can design designing better walkers, exercise robots, and therapeutic devices to improve human performance. Such examples are communication systems for people who cannot communicate in traditional ways, more accessible and easier to use computers for people with disabilities, or wheelchairs with a new design and built from new materials.

Check out the study experience of Iman of who studied biomedical engineering abroad

3. Clinical engineer

As a clinical engineer, you will be able to help hospitals and health-care institutions in applying technology for health care. Your responsibilities will include maintaining and managing equipment records and digital databases of medical instrumentation.

This job may even give you the opportunity to work alongside physicians to oversee the adaptation of instrumentation based on the unique requirements of the hospital and its physicians. You will have to make sure that all medical equipment is safe and effective and meet the specific needs of the physician.

Clinical engineers can also find work in medical product development and manufacturing companies and get involved in several activities, from product design to sales and support.

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4. Bioengineering researcher

Bioengineering research deals with observation, laboratory work, analysis and testing of a series of living materials and biological and medical processes. The aim of bioengineering researchers is to discover new ways to build medical devices and technology. Your work will contribute to developing strategies in all areas of biomedical engineering like neural systems engineering, cardiac bioengineering.

Bioengineering researchers often collaborate with physicians, doctors, psychiatrists, or chemical engineers and will be able to answer questions like: How do proteins from the human body protect the immune system? How can a new drug be used to understand what happens after a heart attack?

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Biomedical engineering helps you discover new medical treatments

Biomedical engineering has evolved over the years and will continue to evolve in response to the advancements and innovations in science and technology. Some of the latest discoveries in biomedical engineering are a lab-grown oesophagus with a high potential to help cancer patients and a lab engineering kidney that works in animals. The work of biomedical engineers doesn’t just lead to helping out people, it can help any living creature.

Start looking for degrees in biomedical engineering and bring your contribution to the medical world. Follow up and pass on the legacy of remarkable engineers like Rene Laënnec who invented the stethoscope or Robert Jarvik who built the artificial heart and developed new biomedical instruments and machines.

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