Biomedical Engineering

Biomedical Engineering at the Strzemiński Academy of Fine Arts in Łódź offers a unique interdisciplinary educational program that combines principles of engineering, design, and medical sciences to develop innovative solutions for healthcare. This program aims to prepare students to design, develop, and improve medical devices, equipment, and systems that enhance patient care and medical diagnostics. Throughout the course, students acquire a solid foundation in engineering, biology, and medical sciences, alongside training in design methodology, usability, and biomedical technology. The curriculum covers topics such as biomaterials, medical imaging, prosthetics, rehabilitation devices, sensor technology, and digital health solutions. Students will also develop practical skills through laboratory work, project-based assignments, and collaborations with healthcare professionals and industry partners. The program emphasizes creativity, technical competence, and understanding of human anatomy and physiology to ensure that graduates can contribute effectively to the development of safe, effective, and innovative biomedical products. Additionally, students gain proficiency in using advanced design and engineering software, allowing them to create prototypes and perform technical analyses. The interdisciplinary nature of the program fosters teamwork, problem-solving abilities, and adaptability to rapidly evolving technological landscapes in healthcare. Graduates of the Biomedical Engineering program at the Strzemiński Academy of Fine Arts in Łódź are thus prepared to pursue careers in medical device design, biomedical research, clinical engineering, and healthcare innovation sectors, contributing to the advancement of medical technology and improving quality of life for individuals worldwide.

Biomedical Engineering at the Strzemiński Academy of Fine Arts in Łódź offers a comprehensive and innovative educational program designed to prepare students for interdisciplinary careers at the intersection of art, design, medicine, and technology. The curriculum combines foundational knowledge in engineering, biology, and medicine with creative and artistic approaches to problem-solving, fostering the development of professionals who can contribute to medical device design, healthcare innovations, and rehabilitative technologies.

Throughout the program, students engage in a variety of coursework that covers key areas such as biomechanics, biomaterials, medical imaging, prosthetics and orthotics, and human-centered design. Emphasizing hands-on experience, the curriculum includes laboratory work, workshops, and collaborative projects with healthcare institutions and industry partners. This practical approach equips students with the technical skills necessary to develop functional and aesthetically appealing biomedical devices and solutions tailored to patient needs.

Moreover, the program encourages students to explore the artistic aspects of biomedical design, including visualization, user interface, and ergonomic considerations, ensuring the creation of user-friendly and innovative healthcare products. Critical thinking, ethical considerations in biomedical development, and the importance of interdisciplinary collaboration are integral parts of the education, preparing graduates to work effectively in diverse professional environments.

Students also have opportunities to participate in research projects, internships, and international exchanges, which help them to broaden their horizons and stay abreast of the latest advancements in biomedical technology and artistic integration. Graduates of the program are well-positioned to pursue careers in medical device companies, research institutions, rehabilitation centers, and healthcare organizations, or to continue their education in specialized postgraduate programs.

The Biomedical Engineering program at the Strzemiński Academy of Fine Arts in Łódź is committed to fostering innovation, creativity, and technical excellence in its students, ultimately contributing to the advancement of healthcare through artistic and engineering synergy in biomedical solutions.

Education requirements:

Candidates have to hold a legalized maturity certificate or another foreign document that entitles one to continue education at the university level. Very good knowledge of English. Candidates holding Polish maturity certificates, for English language, have to obtain min. 60% of the points at the advanced level.Other requirements:

Very good knowledge of English. Candidates holding Polish maturity certificates, for English language, have to obtain min. 60% of the points at the advanced level.

Funding for the Biomedical Engineering program at the Strzemiński Academy of Fine Arts in Łódź is primarily provided through a combination of national and European sources. Students can benefit from various scholarship schemes, including government grants for higher education, which are aimed at supporting students based on academic performance and financial need. Additionally, the university offers its own scholarship programs to assist talented students and those facing financial difficulties, ensuring access to quality education for a diverse student body. Financial aid options may also include tuition fee waivers or discounts for outstanding applicants or those who demonstrate significant extracurricular achievements.

Moreover, the program may participate in European Union funded initiatives, such as Erasmus+ exchanges, which provide opportunities for students to undertake part of their studies or internships abroad with financial support. These mobility grants are designed to enhance international experience and professional development, thereby improving students’ employability upon graduation. The university's cooperation with industry partners and healthcare institutions can also open doors to sponsorships, paid internships, and research funding for students engaged in innovative projects within biomedical engineering.

Students are encouraged to explore external funding sources, including private foundations and non-governmental organizations that support scientific research and technological development in the biomedical sector. The program’s emphasis on modern, research-oriented training coupled with practical placements aims to prepare students for successful careers in the biomedical industry, healthcare, and scientific research, making financial considerations a crucial aspect of their academic journey. By providing comprehensive information about available financing options, the university ensures that students can plan their studies without undue financial stress, focusing fully on acquiring advanced skills and knowledge in biomedical engineering.

Biomedical Engineering at the Strzemiński Academy of Fine Arts in Łódź is a unique interdisciplinary programme that combines elements of engineering, medical sciences, and design. While the primary focus of the academy is on fine arts and design disciplines, this programme aims to equip students with the skills necessary to develop innovative medical devices, prosthetics, and rehabilitation technologies. The curriculum integrates theoretical knowledge in biomedical sciences with practical skills in engineering design, 3D modeling, and prototype fabrication. Students are typically engaged in projects that involve creating ergonomic and functional medical solutions, considering both aesthetic and user experience aspects. The programme emphasizes the importance of comprehensive understanding of human anatomy, materials science, and technology integration. In addition to technical skills, students develop artistic and creative thinking to design user-friendly healthcare products. Collaboration with medical professionals and technological institutes is often part of the learning process, providing real-world experience and insights into healthcare needs. Graduates of this programme are prepared to work in medical device companies, research institutions, or further pursue academic studies. The curriculum may include courses in biomedical signal processing, biomaterials, electronic systems for medical applications, and innovative rehabilitation technologies. Despite the limited specific information available on the university’s official site, similar programmes at the institution often focus on a combination of art, design, and engineering principles, fostering innovation in healthcare technology through a multidisciplinary approach.