What challenges arise when integrating sports medicine technologies into competitive sport?
Scheef: Many of our students come from the world of competitive sports. With us, they can further develop sports equipment themselves, investigate biomechanical issues or work on methods to improve performance diagnostics. One project, for example, aims to continuously record lactate concentration, blood sugar and the concentration of electrolytes. This would make it possible to optimize both training and competition and reduce risks.
We are also working on the development of microneedle systems for biochemical analysis. You can think of it as a laboratory on the skin that continuously records and analyzes data on the body's condition. The difficulty lies in making this suitable for everyday use.
What role does collaboration with sports clinics, research institutes and the organization of practical training play?
Scheef: Practical relevance is an important aspect. We encourage students to work in the labs and develop their own ideas at an early stage. The further the students progress in their studies, the more "open" and practice-oriented the projects become. We also offer students the opportunity to develop their own projects with our StartUpLab, which is funded by the Federal Ministry of Education and Research.
Students are encouraged to carry out practical projects and bachelor’s theses in industry. This is often their first employer after graduation. We also support students in their search for suitable positions. We work closely with companies such as Lohmann Medical and the Institute for Occupational Safety and Health (IFA) in St. Augustin. We have contacts with clinics, orthopedic technology, sports equipment manufacturers and insurance companies. We are part of the Institute for Medical Technology and Information Processing (MTI), which we manage together with the University of Koblenz and clinical colleagues.
What are the current research projects and what are the career opportunities for graduates?
Scheef: The industry is asking for sports medicine technology and they can see that we offer a broad education. Our graduates work in the development of sports equipment, from sports shoe development to the optimization of bicycle frames or the development of new fitness equipment. Orthopedic technology is another possible career field for graduates, as is the entire medical technology sector. Considering that some of the software and hardware used to capture movements is also used in the Hollywood film industry for avatars, the "dream factory" is also a potential employer.