Masters Degree Programme in Public Mental Health
The Master's Degree Programme in Public Mental Health at the Unive...
Masters Degree Programme in Biomedical Sciences: Biomedical Imaging
Turku
INTAKE: August
Program Overview
The Master's Degree Programme in Biomedical Sciences: Biomedical Imaging at the University of Turku is designed for students interested in the application of imaging techniques to explore biological and medical processes. This program offers a unique opportunity to combine theoretical knowledge and practical skills in biomedical imaging, preparing students for careers in medical research, healthcare, and technology development. Biomedical imaging is crucial in understanding complex biological systems and diseases, as well as in the diagnosis and monitoring of medical conditions. Graduates of the program are equipped to apply advanced imaging techniques, such as MRI, CT, ultrasound, and molecular imaging, to address real-world challenges in medical sciences.
Curriculum: The curriculum of the Master's Degree Programme in Biomedical Sciences: Biomedical Imaging is comprehensive and interdisciplinary, combining courses in biology, physics, and medical sciences. Students gain expertise in various imaging modalities and learn how to apply these techniques in research and clinical settings. The curriculum includes foundational courses in anatomy, physiology, and molecular biology, as well as specialized courses in imaging technologies, image analysis, and bioinformatics. Students will also gain hands-on experience through laboratory work and practical training with state-of-the-art imaging equipment. In addition to the core courses, students can choose from electives that allow them to explore areas such as molecular imaging, functional imaging, or imaging in cancer research. The program culminates in a research thesis, where students can contribute to innovative advancements in the field of biomedical imaging.
Research Focus: The Master's Degree Programme in Biomedical Sciences: Biomedical Imaging at the University of Turku emphasizes research and innovation in the field of biomedical imaging. The university is home to cutting-edge research in imaging technologies, focusing on the development of new imaging methods and their applications in medical diagnostics and treatment. Research areas include the application of imaging in molecular biology, neuroscience, oncology, and cardiovascular diseases. Students have the opportunity to work alongside experts in the field, engaging in both theoretical and experimental research. The research focus of the program is not only to improve imaging techniques but also to develop new strategies for better diagnosis, disease monitoring, and personalized medicine. By participating in these research projects, students are equipped to make meaningful contributions to the rapidly advancing field of biomedical imaging.
Industry Engagement: The Master's Degree Programme in Biomedical Sciences: Biomedical Imaging offers students valuable opportunities to engage with the healthcare and technology industries. Through collaborations with leading hospitals, research institutions, and medical technology companies, students gain insights into real-world applications of biomedical imaging. Industry engagement is integrated into the curriculum through internships, research projects, and seminars, where students can network with professionals and researchers in the field. The program prepares students for careers in both academia and industry, with a focus on the commercialization and application of innovative imaging technologies in healthcare. Additionally, partnerships with medical device companies provide students with hands-on experience in the design, development, and implementation of imaging technologies.
Global Perspective: The Master's Degree Programme in Biomedical Sciences: Biomedical Imaging at the University of Turku adopts a global perspective by integrating international trends in biomedical imaging into the curriculum. Biomedical imaging is a rapidly evolving field, and the program prepares students to work in a global context by focusing on both cutting-edge technologies and the challenges faced by healthcare systems worldwide. Students will engage in global discussions on the ethical and practical implications of biomedical imaging, including its use in low-resource settings and its potential to improve healthcare access globally. The program also encourages international collaboration through exchange opportunities, joint research projects, and global partnerships with institutions and healthcare providers. This global outlook ensures that graduates are prepared to contribute to the international development of biomedical imaging and its application in healthcare.
Location
Turku
Score
Tuition Fee
€ 12000
Postgraduate Entry Requirements
Application Fee: €100
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 60% or above in their bachelor's degree.
English Language Proficiency:
- English language test waiver is applicable if the Bachelor's, Master's, Licentiate, or Doctoral degree is in English language.
The University of Turku offers various scholarships for international students, aimed at supporting students with the cost of their tuition fees and ensuring they have the opportunity to pursue their studies in Finland without financial concerns. These scholarships are designed to attract talented students from across the globe, particularly for Master’s degree programs, as the university has a strong international student body.
University of Turku Scholarship Scheme: The University of Turku offers a merit-based scholarship scheme for international students applying to Master’s degree programs. These scholarships cover part or all of the tuition fees for students from non-EU/EEA countries. The scholarships are competitive and are awarded based on the academic excellence and merits of the applicants. Students who are accepted to a degree program at the university are automatically considered for this scholarship.
External Scholarships: The university provides information and guidance on various external scholarships that are available to international students, including scholarships offered by Finnish government agencies and private foundations.
Erasmus+ Grants: Students who are part of the Erasmus+ exchange program may be eligible for grants to support their studies in Finland.
Country-Specific Scholarships: Some countries have specific scholarship agreements with Finland, and students from these countries may apply for additional financial support.
Graduates of the Master's Degree Programme in Biomedical Sciences: Biomedical Imaging from the University of Turku have diverse career opportunities in academia, healthcare, and industry. The program equips students with a deep understanding of biomedical imaging techniques and their applications in medical diagnostics, research, and technology development.
Medical Imaging Specialist: Graduates can work as medical imaging specialists in hospitals, healthcare centers, and diagnostic clinics. They may be involved in performing, analyzing, and interpreting advanced imaging techniques such as MRI, CT scans, ultrasound, and molecular imaging to diagnose and monitor medical conditions. These professionals are essential in clinical settings, providing crucial support to healthcare teams in the diagnosis and treatment planning of various diseases.
Biomedical Researcher: With a strong foundation in imaging technologies, graduates are well-positioned to pursue careers in biomedical research. They can work in research institutes, universities, or pharmaceutical companies, focusing on the development of new imaging methods and their application in disease diagnosis, treatment monitoring, and therapeutic interventions. Researchers may work in fields such as cancer imaging, neuroscience, cardiovascular imaging, or molecular imaging.
Imaging Technology Developer: Graduates with an interest in engineering and technology can pursue careers in the development of new imaging technologies and devices. This role may involve working with medical device companies, startups, or research institutions to innovate and improve biomedical imaging systems. Graduates may focus on hardware or software development, improving imaging resolution, accuracy, and patient outcomes.
Healthcare Technology Consultant: Graduates can take on consulting roles in healthcare technology companies, advising on the application and integration of imaging technologies into clinical practice. Consultants may help healthcare providers select, implement, and optimize imaging systems to improve diagnostic capabilities and operational efficiency in hospitals and clinics.
Clinical Research Coordinator: Many graduates choose to work as clinical research coordinators in the medical field, overseeing clinical trials involving biomedical imaging technologies. In this role, they manage the planning, execution, and monitoring of clinical studies, ensuring that imaging techniques are used effectively for data collection and analysis in trials. Clinical research coordinators may work in pharmaceutical companies, healthcare organizations, or academic research settings.
Regulatory Affairs Specialist: Graduates can also pursue careers in regulatory affairs, focusing on ensuring that biomedical imaging products and technologies meet safety, efficacy, and regulatory standards. They can work with government agencies or in the private sector, ensuring that new imaging technologies are approved and compliant with regulations before they can be used in clinical practice.
Medical Device Sales and Marketing: Graduates with an interest in business and sales can work in the marketing and sales of biomedical imaging equipment and software. They can represent companies that manufacture medical imaging devices, working with hospitals, clinics, and research institutions to promote and sell these products. They may also provide training and support to ensure that healthcare professionals can use the equipment effectively.
Healthcare IT Specialist: Graduates can pursue careers in healthcare IT, focusing on the integration and management of imaging technologies within hospital information systems. These specialists work to ensure that imaging data is efficiently stored, transmitted, and analyzed through electronic medical record (EMR) systems. They may work in IT departments within healthcare organizations, improving the accessibility and use of imaging data.
Academia and Teaching: For those interested in continuing their academic journey, the program provides a strong foundation for teaching and research roles in universities and academic institutions. Graduates can contribute to the education of future professionals in biomedical sciences and biomedical imaging, as well as conduct research to advance the field. Academic careers in teaching and research often focus on developing new imaging techniques or exploring their application in clinical practice.
Entrepreneurship: Graduates interested in entrepreneurship may start their own companies or work with startups in the biomedical imaging and healthcare technology sectors. These entrepreneurial opportunities often involve the creation and commercialization of innovative imaging technologies or services, with a focus on improving healthcare outcomes and access.
