Last Updated on July 29, 2023

Finland has a legacy in Biomedical Engineering that is second to none. Biomedical engineering is basically an umbrella term used to categorize any branch of engineering that focuses on the human body. With plenty of great BME programs in Finland, you are sure to find one that suits your needs. Here are a few tips on how you can get started with a career in Biomedical Engineering.

 Biomedical Engineering – MHS/MSc

University of Oulu  Master’s Programmes

The International Master’s Degree Programme in Biomedical Engineering (BME) is a two-year interdisciplinary program focusing on biomechanics and medical imaging as well as biomedical signal and image processing. 

 Master of Science in Biomedical Technology

Tampere University  Masters Programmes

Hands-on skills in the crossroads of molecular biology, cell technology and bioinformatics Get in-depth knowledge and practical skills with a focus on human health. 

 Master of Science (Technology) in Biomedical Sciences and Engineering – Biomedical Micro- and Nanodevices

Tampere University  Masters Programmes

Biomedical Sciences and Engineering combines engineering with life sciences People’s need for more tailored and cost-efficient implants, devices and health informatics solutions is growing. 

 Master of Science (Technology) in Biomedical Sciences and Engineering – Biomaterials and Tissue Engineering

Tampere University  Masters Programmes

Biomedical Sciences and Engineering combines engineering with life sciences People’s need for more tailored and cost-efficient implants, devices and health informatics solutions is growing.

 Master of Science (Technology) in Biomedical Sciences and Engineering – Health Technology and Informatics

Tampere University  Masters Programmes

Biomedical Sciences and Engineering combines engineering with life sciences People’s need for more tailored and cost-efficient implants, devices and health informatics solutions is growing. 

 MDP in Materials Engineering: Health Technology Materials

University of Turku  University of Turku Master’s Programmes

Master’s Degree Programme in Materials Engineering. Health Technology Materials trains professionals in materials engineering with a particular focus on developing biomaterials to the needs of health technology applications. 

 MDP in Biomedical Sciences: Biomedical Imaging

University of Turku  University of Turku Master’s Programmes

The Master’s Degree Programme in Biomedical Sciences — Biomedical Imaging specialisation track trains professionals with thorough theoretical understanding and practical skills in diverse imaging methods and technologies. 

 Biomedicine

University of Eastern Finland  Masters Programmes

The Master’s Degree Programme in Biomedicine (BIOMED) is a unique combination of science education and medical competence offered by the UEF School of Medicine. 

biomedical engineering

What Is Biomedical Engineering?

Biomedical engineering is the application of the principles and problem-solving techniques of engineering to biology and medicine. This is evident throughout healthcare, from diagnosis and analysis to treatment and recovery, and has entered the public conscience though the proliferation of implantable medical devices, such as pacemakers and artificial hips, to more futuristic technologies such as stem cell engineering and the 3-D printing of biological organs.

Engineering itself is an innovative field, the origin of ideas leading to everything from automobiles to aerospace, skyscrapers to sonar. Biomedical engineering focuses on the advances that improve human health and health care at all levels.

How is Biomedical Engineering Different?

Biomedical engineers differ from other engineering disciplines that have an influence on human health in that biomedical engineers use and apply an intimate knowledge of modern biological principles in their engineering design process. Aspects of mechanical engineering, electrical engineering, chemical engineering, materials science, chemistry, mathematics, and computer science and engineering are all integrated with human biology in biomedical engineering to improve human health, whether it be an advanced prosthetic limb or a breakthrough in identifying proteins within cells.

There are many subdisciplines within biomedical engineering, including the design and development of active and passive medical devices, orthopedic implants, medical imaging, biomedical signal processing, tissue and stem cell engineering, and clinical engineering, just to name a few. Request information to become a biomedical engineering today.

What do Biomedical Engineers do?

Biomedical engineers work in a wide variety of settings and disciplines. There are opportunities in industry for innovating, designing, and developing new technologies; in academia furthering research and pushing the frontiers of what is medically possible as well as testing, implementing, and developing new diagnostic tools and medical equipment; and in government for establishing safety standards for medical devices. Many biomedical engineers find employment in cutting-edge start-up companies or as entrepreneurs themselves.

Tissue and stem cell engineers are working towards artificial recreation of human organs, aiding in transplants and helping millions around the world live better lives. Experts in medical devices develop new implantable and external devices such as pacemakers, coronary stents, orthopaedic implants, prosthetics, dental products, and ambulatory devices. Clinical engineers work to ensure that medical equipment is safe and reliable for use in clinical settings. Biomedical engineering is an extremely broad field with many opportunities for specialization.

What Careers are there in Biomedical Engineering?

In the last few years, both Forbes and CNN Money have dubbed biomedical engineering as the best health care career out there. And the possibilities within biomedical engineering are nearly endless. New innovations in technology, materials, and knowledge mean that tomorrow’s breakthroughs can barely be conceived of today. After all, a generation ago, biomedical engineering, as a field, did not exist.

Career paths in biomedical engineering tend to be driven by the interests of the individual: the huge breadth of the field allows biomedical engineers to develop specialties in an area that interests them, be it biomaterials, neuromodulation devices, orthopaedic repair, or even stem cell engineering. Biomedical engineers often combine an aptitude for problem solving and technical know-how with focused study in medicine, healthcare, and helping others. It is this hybridization that has led to so much innovation—and so much opportunity—in biomedical engineering.

How Much do Biomedical Engineers Earn?

Like careers in many other engineering fields, biomedical engineers are well paid. Compared to other fields, they earn well above average throughout each stage of their careers. A typical first job as a biomedical engineer nets a salary in excess of $61,000, with many earning significantly more. More advanced careers are comfortably in six figures.

According to the United States Department of Labor, the mean salary for a biomedical engineer is $98,340 with the top ten percent of biomedical engineers earning $149,440.

The Future of Biomedical Engineering

Economically speaking, medical diagnostics triple in market value each year. Revolutionary advances in medical imaging and medical diagnostics are changing the way medicine is practiced. New medical devices, arising in the research laboratories of biomedical engineers around the world, have completely altered the manner by which disease and trauma is dealt with by physicians, extending the quality and length of human life.

Ultimately, the future of biomedical engineering is tied to both the issues and obstacles we discover and advances and achievements in fields like chemistry, materials science, and biology. Just as in most other fields, interdisciplinarity means that innovation originates from many directions at the same time.