Uni-Tübingen

Biomedical Technologies - Master

Key data on study program

Faculty
Medizinische Fakultät

Academic Degree
Master

Restricted admission
Ja, im 1. Fachsemester

Regular duration of studies
4 semester

Is a combination subject required?
No

Application deadline 1st semester

Application deadline for Germans and EU citizens 
Winter semester: 15.04

Application deadline for non-EU citizens
Winter semester: 15.04

Gilt für alle Bewerber/innen mit deutscher oder EU-Hochschulzugangsberechtigung.

Program start
Winter semester

Language of instruction
English

Costs
Tuition and other fees

Apply now

Requirements and application

Application procedure

24 places are available per year and will be awarded according to the applicant’s qualifications and experience. The program always starts in the winter semester and the application deadline is 15th of April . To be admitted to the Master’s program, students must have completed their first degree.

A ranking list is created based on the final grades or provisional final grades of the first degree. A bonus can additionally be awarded by the selection committee, especially for publications and academic prizes in scientific fields.

Application and admission takes place via the central administration office of the university:

Central Administration Office

 

Please note that students of the Faculty of Medicine are required to prove sufficient vaccination protection against measles according to § 20 section 8-14 Infektionsschutzgesetz (Infection Protection Act).  Students who cannot be vaccinated for medical reasons must prove this with a medical certificate.

Foreign language competence

English language requirements for Master’s Applicants:

Applicants must provide proof of their English skills at the C1 level.

Program details

Curriculum/Field of study

The interprofessional and interdisciplinary master’s degree program in Biomedical Technologies is characterized by practice orientation and internationality.

The master program at the University of Tübingen is an excellent choice for students seeking advanced academic and application-oriented research training in emerging fields of Biomedical Technologies integrating the excellent focus areas of Biomedical Engineering, Bioimaging and NanoBioAnalytics. The trainings are offered by experts in basic as well as clinical sciences and provide a comprehensive overview of the area.

The program provides:

  • Lectures and modules embedded in a modern technological and medical environment and supported by an interdisciplinary team of internationally well-known and distinguished scientists.
  • Excellent study conditions in small training groups with individual contact to researchers and clinicians.
  • Close interaction with companies and research institutes in Medical Technologies and Biomedical Technologies secures a competence-based study program, practical experiences and the enclosure of researchers from industry in lectures.

Our central goal is to prepare our students for various professional challenges to successfully start a career in future oriented branches of Biomedical Technologies.

In the first year, students can choose two out of three specialization modules (Biomedical Engineering, Bioimaging, NanoBioAnalytics) allowing the students to tailor the program to their individual interests. The second year of the master program is flexibly organized to allow students to gain practical experience in research institutes, industry or abroad.

Biomedical Engineering

Students  Get fundamental overview over in vitro models as alternatives to animal models from the development to regulatory acceptance and use, with their advantages, limitations, and applications,gain insight in the most recently established technologies and basics of microfabrication and additive fabrication;Gain knowledge of ECM (focus on collagen and elastic fibres), properties of biomaterials, cell-ECM interactions

They understand the coupling and interaction between technical implants and tissue, material and bio-compatibility, rejection, knowledge about the passivation of surfaces and technical body parts of all kinds, principles of sensory and motor function

Bioimaging

Bioimaging imparts deeper knowledge regarding preclinial imaging and clinical application, i.e. positron-emission tomography (PET), magnetic resonance imaging (MRI), optical imaging (OI), computer tomography (CT), ultrasound (US) and encloses the development of the future generation PET and mulimodality imaging equipment.

On the basis of special laboratory techniques different methods of measurement are demonstrated. For clinical application students discuss very special issues on Biomedical Technologies which are illustrated in practical sessions.

NanoBioanalytics

NanoBioanalytics integrate biological and molecular nanophysics, nanotechnology, biomedical measurement technology, scanning probe microscopy, electron microscopy, nanostructures, nanomechanics, label-free detection methods, scientific instrumentation and devices, transducers, electrical sensing of living cells, chip-based sensors, hard- and software development. On the basis of lectures, seminars and practical work experience students get insights into a very innovative field of research in Biomedical Technologies and acquire a fundamental knowledge on organization of matter. They get to know interdiciplinary methods of approach and discussion and develop the capability to analyze and solve problem definitions.

Mandatory courses

Mandatory courses offer competence-based fundamental knowledge and tools demanded from industry and clinic.

Elective courses

Elective courses allow broadening the knowledge in one of the other specialization fields. Alternatively, for students being more technically interested courses at the University of Stuttgart can be chosen (max. 12 ECTS).

Characteristics

The interprofessional and interdisciplinary Master’s program in Biomedical Technologies is characterized by practice orientation and internationality with the ambition to qualify future excellent scientists for research in Biomedical Technologies.

A particular strength of the Master’s program in Biomedical Technologies at the University of Tübingen is its location within the thriving research culture of the Faculty of Medicine with its focus areas of implantology and bioimaging and of the Faculty of Sciences with its focus area of nanoanalytics/interfaces, all of which have been deemed excellent by the Training in these focus areas is offered by experts who are predominantly active researchers or clinical scientists. As expert teachers they provide a comprehensive and thoroughly up to date overview of the area.

choice for students seeking advanced academic and application-oriented research training in emerging fields of Biomedical Technologies.

Tübingen’s consecutive Master’s program lasts two academic years (4 semesters) and encompasses a total of 120 ECTS credit points. It is run by the Faculty of Medicine in close collaboration with the Faculty of Sciences.

Our curriculum complies with the European Credit Transfer System (ECTS) to ensure compatibility with other international programs.

Program coordination/Administration

Master’s program lasts two academic years (4 semesters) and encompasses a total of 120 ECTS credit points. In the first year, students can choose two out of three specialization modules allowing the students to tailor the program to their individual interests. The second year of the Master’s program is flexibly organized to allow students to gain practical experience in research institutes, industry or abroad. 

The Master’s thesis Research Project (30 ECTS) in the fourth semester forms a major component of the course and entails six months’ full-time practical work at university or in industry on a novel piece of research. This element gives students experience in independently solving an experimental problem within the field of modern Biomedical Technologies and writing an extended report. Students gain experience of laboratory work, knowledge of modern scientific methods, and practice in researching scientific literature.

Exchange programs

 

Freiwilliger Auslandsaufenthalt
In jedem Studiengang ist ein freiwilliger Auslandsaufenthalt möglich. Mit der Planung sollte ca. ein bis eineinhalb Jahre vor der Abreise begonnen werden. 
Weitere Informationen und Beratung zum Auslandsstudium finden Sie auf der fachübergreifenden Seite Wege ins Ausland. Zudem bieten einige Fächer auch eigene Informationen zu Auslandsaufenthalten an. 

Further information

In order to apply for one of our Master’s programs, please click on the link below and complete the online application form.

Central Administration Office

Help with choosing a study program

Entscheidungshilfen für ein Erststudium

Die Universität bietet Hilfen zur Entscheidungsfindung an. Dazu gehören z.B. der Besuch von Lehrveranstaltungen, Orientierungsveranstaltungen zu Studienwahlthemen sowie verschiedene Beratungsangebote. Weitere Hinweise finden Sie auf den Seiten für Studieninteressierte.

Entscheidungshilfen für Masterstudiengänge

Bei der Studienwahlentscheidung für die Masterstudiengänge spielen Spezialisierung, Schwerpunktsetzung und forschungs- sowie berufsbezogene Kriterien eine Rolle. Für Interessierte an Masterstudiengängen gibt es eine Vielzahl an Orientierungshilfen wie z.B. den Besuch von Lehrveranstaltungen und spezielle Beratungs- sowie Informationsangebote (z.B. Zentrale Studienberatung, Studienfachberatung, Career Service). Nähere Informationen finden Sie unter Beratung und Information.

After your studies

Career opportunities

The Master’s program in Biomedical Technologies lasts two academic years (4 semesters) and leads to a Master of Science (M. Sc.) degree. Upon successful completion of the program, graduates may choose to continue their studies by directly pursuing a doctorate in Biomedical Technologies.

Alternatively, graduates may choose to embark upon a professional career with responsibility:

  • Design and development of medical devices for clinical application
  • Design, development and production of medical devices and instruments
  • Development and production of biological surfaces for implant materials
  • Research and development in the field of Tissue Engineering and Regenerative Medicine

Beratung und Praktika
Der Career Service der Universität berät bei der Berufsorientierung und beim Berufseinstieg. Praktika und Jobs finden Sie im Praxisportal.

Opportunities for further studies/Perspectives

Upon successful completion of the Master of Science program in Biomedical Technologies, graduates may directly pursue a doctorate of PhD.

 All degree programs