MSc in Electrical Engineering - Smart Grids
The MSc in Electrical Engineering - Smart Grids at Tampere Uni...
Master of Science in Biomedical Technology - Cell Technology
Kauppi
INTAKE: September
Program Overview
The Master of Science in Biomedical Technology - Cell Technology program at Tampere University, Finland, provides students with a comprehensive understanding of the biological and technological aspects of cell biology. This program focuses on the application of cell technology in biomedical research, biotechnology, and healthcare solutions. Students will learn to design, develop, and apply advanced cell-based technologies that are essential in areas such as regenerative medicine, drug development, and biotechnology. The program equips students with the expertise needed to work in both research and industry, contributing to the growing demand for professionals skilled in cell biology and related technologies. It combines academic excellence with practical knowledge, preparing graduates for impactful careers in the biomedical and biotechnology sectors.
Curriculum: The curriculum for the Master of Science in Biomedical Technology - Cell Technology program at Tampere University is structured to provide students with a robust foundation in both the biological sciences and technological innovations in cell biology. The program covers key topics such as cell culture techniques, stem cell biology, genetic engineering, and tissue engineering. Students will engage in courses on cell biology, bioinformatics, molecular biology, and biotechnology, ensuring a well-rounded understanding of the fundamental principles. Hands-on laboratory work is an integral part of the curriculum, allowing students to gain practical skills in handling cells, tissues, and biological systems. Additionally, students will have the opportunity to take elective courses, enabling them to specialize in areas such as regenerative medicine or cell-based assays. The curriculum is designed to foster both theoretical knowledge and practical expertise, preparing students for the demands of the modern biomedical and biotechnology industries.
Research Focus: The research focus of the Master of Science in Biomedical Technology - Cell Technology program at Tampere University is centered on advancing cell-based technologies for use in medical and industrial applications. Research projects at the university focus on key areas such as stem cell research, tissue engineering, and the development of novel cell therapies. Faculty members and researchers at Tampere University are actively engaged in exploring how cell technologies can be harnessed to repair damaged tissues, develop new therapies for diseases, and create innovative biotechnological products. Students are encouraged to participate in cutting-edge research initiatives, contributing to the development of new techniques in cell manipulation, genetic modification, and tissue regeneration. Through these research opportunities, students gain valuable experience in the application of advanced cell technology in real-world biomedical contexts.
Industry Engagement: The industry engagement component of the Master of Science in Biomedical Technology - Cell Technology program at Tampere University ensures that students are well-prepared for careers in the biomedical and biotechnology industries. The university has established strong collaborations with leading companies in the biotech and healthcare sectors, providing students with opportunities for internships, industry projects, and networking. These partnerships enable students to apply their theoretical knowledge in real-world settings, gain insights into industry practices, and develop skills that are highly valued by employers. Additionally, Tampere University’s location in the heart of Finland’s innovation ecosystem offers students access to a thriving biotech industry, with opportunities for career placement in both established companies and startups. Industry-driven research projects also offer students a chance to contribute to the development of new products and technologies.
Global Perspective: Tampere University’s Master of Science in Biomedical Technology - Cell Technology program offers a global perspective, preparing students to work in international research and biotechnology environments. The program attracts students from around the world, creating a diverse and collaborative learning atmosphere. Students are exposed to global trends in biomedical technology, including advances in cell-based therapies, regenerative medicine, and personalized healthcare. The curriculum incorporates international perspectives on ethical issues, regulatory standards, and the application of cell technologies across different healthcare systems. Furthermore, the program’s global perspective is reinforced by partnerships with international academic institutions and biotech companies, offering students opportunities for exchange programs and collaborative research projects. This global outlook ensures that graduates are equipped to work in international settings, contributing to the development of healthcare solutions that address global health challenges.
Location
Kauppi
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.
Tampere University in Finland offers various scholarship opportunities to help international students finance their education and living costs. The university is supporting talented and motivated students from around the world, ensuring that financial constraints do not prevent them from pursuing higher education in Finland.
Tampere University Scholarships for Non-EU/EEA Students: Tampere University offers scholarships to international students from non-EU/EEA countries applying to Master's degree programs. These scholarships are designed to cover tuition fees and help students with the cost of living in Finland. The scholarship covers either partial or full tuition fees, depending on the student's academic merit and the specific program applied to.
Tampere University Scholarship for Excellence: The Tampere University Scholarship for Excellence is awarded to exceptional students based on their academic achievements. This scholarship aims to recognize the outstanding academic performance of students during their studies and provide them with additional financial support. The scholarship amount varies depending on the level of achievement, and students who maintain excellent academic performance may be eligible for renewal during their studies.
Finland Scholarship: The Finland Scholarship is a government-funded initiative aimed at attracting top talent to Finland from abroad. Tampere University participates in this scholarship program, which is available to non-EU/EEA students who apply for Master's degree programs in Finland. The Finland Scholarship covers tuition fees and provides an additional grant to help with living expenses during the first year of study. This scholarship is awarded based on academic merit and is designed to make studying in Finland more accessible to international students.
Scholarships for Exchange Students: Tampere University also offers limited scholarships for exchange students from partner universities. These scholarships help cover travel costs, accommodation, and other living expenses during the exchange period. Exchange students should check with their home university’s exchange program office to inquire about the available scholarship opportunities.
External Scholarships and Funding: In addition to university-specific scholarships, international students can explore external scholarship opportunities provided by the Finnish government, private organizations, and other funding bodies. These scholarships may be available for both undergraduate and graduate students. International students are encouraged to research and apply for other scholarships to support their studies in Finland.
Graduates of the Master of Science in Biomedical Technology - Cell Technology program at Tampere University, Finland, are highly sought after in the fields of biomedical research, biotechnology, healthcare, and pharmaceutical industries. The program equips students with the expertise to apply advanced cell technologies to real-world medical and industrial challenges, opening the door to a wide array of career options in cutting-edge fields.
Cell Biologist: Graduates can work as cell biologists, specializing in the study and manipulation of cells for research and therapeutic applications. They may work in research labs, hospitals, or pharmaceutical companies, focusing on developing novel treatments using stem cells, cell therapy, and tissue engineering techniques.
Regenerative Medicine Specialist: With a growing focus on regenerative medicine, graduates can become specialists in this field, using advanced cell technologies to develop treatments aimed at repairing or replacing damaged tissues and organs. They may work in academic research, biotech companies, or clinical settings.
Biotechnology Researcher: Graduates can pursue careers as biotechnology researchers, where they can apply their knowledge of cell technology to develop new biotechnological products, including therapies, diagnostics, and medical devices. Their research may focus on innovations in cell culture systems, genetic modification, or tissue engineering.
Pharmaceutical Scientist: Graduates can work as pharmaceutical scientists in drug discovery, development, and testing. With a deep understanding of cell biology, they can contribute to the development of new pharmaceutical products, including biologics, gene therapies, and cell-based treatments.
Biomedical Engineer: As biomedical engineers, graduates may work on the development and application of medical devices, implants, or equipment used in healthcare settings. They can combine their knowledge of cell technology with engineering principles to design technologies that aid in diagnosing or treating medical conditions.
Clinical Researcher: In this role, graduates can work on clinical trials and research studies that assess the efficacy of cell-based treatments and technologies. They may work in hospitals, pharmaceutical companies, or clinical research organizations, helping to develop and test new therapies for diseases like cancer, cardiovascular disorders, and neurodegenerative diseases.
Biomanufacturing Specialist: Graduates can work in biomanufacturing, overseeing the large-scale production of cell-based products, including vaccines, gene therapies, and cellular therapies. Their expertise in cell culture and biotechnology allows them to manage production processes and ensure that products meet regulatory and quality standards.
Stem Cell Researcher: Specializing in stem cell research, graduates can contribute to advancing the understanding and use of stem cells in regenerative medicine. They may work in academic, governmental, or private research institutions, studying stem cells’ potential to treat diseases and injuries.
Tissue Engineer: Graduates can become tissue engineers, developing artificial tissues and organs using cell-based technologies. Their work may involve growing cells in lab conditions to create tissue-like structures that can be used in medical applications or as alternatives to organ transplants.
Medical Science Liaison: In this role, graduates can work as medical science liaisons for pharmaceutical or biotechnology companies, bridging the gap between the research and clinical sides. They provide scientific expertise and insights to clinicians and researchers, ensuring that cell-based products and technologies are used effectively in clinical settings.
Regulatory Affairs Specialist: Regulatory affairs specialists work to ensure that cell-based products comply with national and international regulations. Graduates can work with regulatory agencies and companies to guide the development, approval, and marketing of cell technologies and therapies.
Bioinformatics Specialist: Graduates with a strong background in data science and computational biology can pursue careers as bioinformatics specialists. They analyze large biological datasets, such as genomic and transcriptomic data, to uncover insights that drive cell-based therapy development and enhance personalized medicine strategies.
Product Development Manager in Biotech: Graduates can work as product development managers, where they oversee the creation and commercialization of new cell-based products. They guide cross-functional teams to develop innovative solutions, from concept through design, testing, and production.
Healthcare Technology Consultant: Graduates can work as consultants, advising healthcare organizations, research institutions, and biotechnology companies on the integration of advanced cell technologies into their operations. They help streamline processes, improve patient care, and optimize the use of cell-based solutions.
Entrepreneur in Biotech or Healthcare Startups: With the knowledge gained from the program, some graduates may choose to start their own biotech or healthcare-related companies. They can create startups that focus on developing new cell-based therapies, medical devices, or diagnostic tools, contributing to the innovation landscape in healthcare.
