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Biomedical
Technologies
Master of Science
Faculty of Medicine
Biomedical Technologies @ Tübingen
The interprofessional and innovative master’s degree program in Biomedical Technologies is characterized by practice orientation and internationality. Lectures are embedded in a modern technological and medical environment and are supported by an interdisciplinary team of internationally well-known and distinguished scientists. Graduates are well prepared for various professional challenges and have excellent career perspectives in Biomedical Technologies.
The Eberhard Karls University TübingenInnovative. Interdisciplinary. International. Since 1477. The University of Tübingen has combined these leading principles in its teaching and research since its foundation. It is one of the oldest and most renowned universities in Germany and offers a first-class framework for profes-sional studies, as well as the possibility to set personal accents and pri-orities. Many further amenities enhance the attractive study conditions, such as the campus sports program, the centre for foreign languages, the interdisciplinary ‘Studium Generale’ and the modern university library. Let the university’s slogan speak for itself: attempto – I dare!
The City of TübingenTübingen does not have a university, Tübingen is a university: young, creative, open-minded, innovative. The beautiful historical old town and the attractive location on the river Neckar offer an excellent quality of life and recreational value.
Alle Angaben vorbehaltlich der Genehmigung durch das Ministerium für Wissenschaft, Forschung und Kunst Baden-Württemberg.
Program Coordination: Dr. Ursula MittnachtUniversity of Tübingen – Faculty of Medicine
Study Program Biomedical TechnologiesGeissweg 5/1 – 72076 Tübingen
Phone: +49 7071 29 77670 – Fax: +49 7071 29 4446www.uni-medtech.de/studiengang/[email protected]
Perspectives
Degree and career opportunitiesThe master’s program lasts two academic years (4 semesters) and en-compasses a total of 120 ECTS credit points according to the European Credit Transfer and Accumulations System. After completion, our students are awarded a Master of Science (M.Sc.) degree.
Successful graduates may choose to continue their studies by directly pursuing a doctorate or PhD in the research field of Biomedical Tech-nologies.
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 instru-
ments• Development and production of biological surfaces for implant
materials• Research and development in the field of Tissue Engineering and
Regenerative Medicine
Start of studies/course: each winter semesterStandard period of studying: 4 semestersTotal amount: 120 ECTS-Credit PointsStudy year abroad: is possibleCourse language: English
Our target group
We are looking for students with a pronounced affinity and a deep interest for Biomedical Technologies and research questions in this field.
Information for applicantsIn order to apply for our Master’s program, please visit the website and complete the online application form.www.uni-tuebingen.de/studium/bewerbung-und-zulassung/bewerbung-master
Requirements are:• Bachelor’s degree in Medical Technologies or a recognized equiva-
lent from an accredited institution with 180 ECTS.• A general higher education entrance certificate. Foreign certificates
must be recognized by an accredited public authority as comparable.Further application requirements are available from the program coordinator.
Foreign language competenceApplicants must provide proof of their English skills which can be dem-onstrated on the basis of Internet-based TOEFL (TOEFL iBT), IELTS, Cambridge Certificate of Advanced English Test, Language certificate from the German Academic Exchange Service (DAAD) in accordance with the levels of language competence of the Common European Framework of Reference and the UNIcert System.
Twenty-four places are available per year and will be awarded accord-ing to the applicant’s qualifications and experience. Matriculation takes place every winter semester via the central administration office of the university with application deadline 15th of June. 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 deadline: 15th JuneFurther information for application: www.uni-tuebingen.de
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Applicationwith B.Sc. degree
Keywords: Biomedical Technologies, Implantology, Bioimaging, Nanoanalytics, Interfaces, Medical Physics and Radiation Science
Profile of the course
The interprofessional and interdisciplinary master’s degree program in Biomedical Tech-nologies 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 integrat-ing the excellent focus areas of implantology, bioimaging and nanoana-lytics/interfaces. Training is offered by experts in basic as well as clinical sciences and provide a comprehensive overview of the area.
Master of BiomedicalTechnologies
In the first year, students can choose two out of three specialization modules allowing them 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.
• Specializations provide deepening knowledge and advanced research training in two focus areas of research at the University of Tübingen according to the student’s individual interests:
Course Content
1st year ECTSSpecialization (choose 2)ImplantologyArtifical organs, electronic implants, (intelligent) biomaterials, biocompat-ibility, biomedical acoustics, signal transduction etc.
15
Nanoanalytics/InterfacesBiological and molecular nanophysics, nanotechnology, microscopy, nanostructures, surface modification etc.
15
BioimagingMagnetic-resonance imaging, micro- and nano-tomography of biological tissues, image analysis, molecular imaging, image-guided therapy, etc.
15
Elective courses (choose 12 ECTS):Implantologylecture + seminar encompass development and production of vital and avital implants
6
Nanoanalytics/Interfaceslecture + seminar on integrating biological and molecular nanophysics
6
Bioimaginglecture + seminar on positron-emission tomography, optical imaging, ultrasound
6
Medical Physics and Radiation Sciencelecture + seminar on radiation planning, Physics and Technology for Medical Application of Radiation, Dosimetry for Medical Physicists, Biostratics, Nuclear Medicine, Diagnostic and Interventional Radiology, Radiation Therapy
12
Courses at the University of Stuttgart with focus on technical and engineering content, etc.ceramics and composites for Implantology, actuating elements for instru-ment engineering, Interface Design, Technologies of medical imaging, optical systems in Medical Technologies, Nanotechnologies
max. 12
2nd year ECTSTwo practical work experiencesin industry, clinic, university or abroad
30
Master thesisworking on an experimental problem within the reseach field of Biomedi-cal Technologies
30
1st year: Mandatory courses ECTSBiomedical Technologies in Diagnostic and Therapy 6Laboratory Techniques and Medical Device Approvals 6Clinical Cases and Consequences for Medical Devices 6
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 cooperation with more than 40 universities all over the world, which offers the option to complete a practical work experience or to write the master thesis abroad.
• Furthermore, close interaction with companies and research institu-tes in Medical Technologies and Biomedical Technologies secures a competence-based study program, practical experiences and the inclusion of researchers from industry in lectures.
Our central goal is to prepare our students for various professional chal-lenges to allow a successful start to a career in future oriented branches of Biomedical Technologies
Implantology encompasses the development and production of both vital and avital implants. The aim of this module is to trans-fer a detailed knowledge about tissue engineering, biomaterials, reactor technology as well as interfaces between tissues and syn-thetic surfaces, biocompatibility, surface passivation and signal transduction. The scope of topics ranges from basic research to clinical trials, including the design of implants, their use in animal trials and their clinical application.
Nanoanalytics/Interfaces integrate biological and molecular nanophysics, nanotechnology, biomedical measurement technol-ogy, scanning probe microscopy, electron microscopy, nanostruc-tures, nanomechanics, label-free detection methods, scientific instrumentation and devices, transducers, electrical sensing of living cells, chip-based sensors, hard- and software development.
Bioimaging imparts deeper knowledge regarding preclinial imag-ing 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 imag-ing 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.
Master of BiomedicalTechnologies
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Curriculum
• Mandatory courses offer competence-based fundamental know-ledge and tools demanded from industry and clinic.
• Elective courses allow broadening the knowledge base in one of the other specialization fields.Alternatively, more technically interes-ted students can choose courses at the University of Stuttgart (max. 18 ECTS).
• Practical work experience in a research institute, in Medical Technologies companies or abroad provides the students with first valuable workplace skills, communication skills and experience in national and international teams.
• The Master thesis forms a major component of the course and entails six months’ full-time practical work in an academic or indus-trial laboratory or abroad on a novel research project. This element gives students experience in independently solving an experimental problem within the research field of modern Biomedical Technologies as well as writing an extended scientific report.
3rd semester1st semester
Master Thesis
1st practical
work experience
1st mandatory course
2nd mandatory course
3rd mandatory course
1st specialization
1st elective course
2nd specialization
2nd elective course
2nd practical
work experience
2nd semester 4th semester
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