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Medical Engineering Degree Programme and RD Center

A comprehensive 4-year degree programme in Medical Engineering that combines information technology, telecommunications, and healthcare subjects. The programme includes compulsory and optional professional studies, training, and a bachelor's thesis.

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Medical Engineering Degree Programme and RD Center

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  1. Medical EngineeringDegree Programme and RD Center Jukka Jauhiainen Principal lecturer, PhD Head of the Degree Programme

  2. R&D and Education Department of Medical Engineering R&D Center Degree programme

  3. The degree programme • Started 1998 • Intake about 30 students / year • 4 year programme, 240 ECTS • Total number of students inside today is about 110 • Three full-time teachers • More teachers from the Information Technology degree programme

  4. Description • Based on information technology and telecommunications • Also courses on health care and related subjects • Technological aids for the old, disabled etc. • Human / technology interaction • Telemedicine / telecare

  5. Contents • Compulsory basic and professional studies • Foreign languages 6 ECTS • Mathematics, physics, chemistry 27 ECTS • R&D 15 ECTS • Health care 9 ECTS • Programming 11 ECTS • Telecommunications 17 ECTS • DSP 14 ECTS • Electrical engineering / electronics 21 ECTS

  6. Optional professional studies • Home care technology 23 ECTS • Gerontechnology • Usability / ergonomics • User-centered design • Physiological signal processing • Projects

  7. Optional professional studies • Hospital techology 23 ECTS • Medical engineering equipment • Digital image processing • Telemedicine • Physiological signal processing • Projects

  8. Training and thesis • Training 30 ECTS • Optional studies 15 ECTS • Bachelor’s thesis 15 ECTS

  9. Afterlife • About 80 graduates between 2002 – 2005 • A follow-up study in 2004 (56 graduates): • About 40 % were working in medical engineering • About 10 % were unemployed • The rest were either studying further or not in medical engineering or related jobs. • Both public (e.g. hospitals) and private (mainly Oulu-area companies) sector

  10. Examples of bachelor’s theses • Image archive (PACS) design works for Oulu University Hospital • Image segmentation tool for Radiology Department • ” Workflowanalyse für telemedizinische Anwendung ” (made in Germany) • Heart rate monitor-related works • Air fighter pilot acceleration studies, related to head and neck forces during high G’s • EMG measurements and analysis-related works • And many more … 

  11. Foreign exchange • A few students are taking part of the international student exchange programs every year • Teacher exchange also possible

  12. R&D Center for Medical Engineering • Started 2003, funding until the end of 2006 • 2 full time research positions divided between 5 part-time researchers (2 PhD, 3 MSc) • 1 full time laboratory engineer

  13. Working model • Serves small to middle sized companies in the Oulu region • Different phases of product development • Up-to-date hardware and software • Centralized R&D and testing environment

  14. Multidisciplinary network of consulting specialists • Saves money and time in the product development processes

  15. In collaboration with • Oulu Polytechnic • Institute of Technology • Business School • School of Social and Health Care

  16. Funding: Development • 1.1.2004 – 31.12.2006 • 480 k€ • Mainly personnel salaries and travel costs • ERDF (European Regional Development Fund) • Oulu Provincial Government • City of Oulu • Oulu Polytechnic • Private funding

  17. Funding: Investments • 1.11.2003 – 31.12.2006 • 730k€ • Equipment • ERDF • Northern Osthrobotnia Employment and Economic Development Center • Oulu Polytechnic • City of Oulu • Companies • Innokas Medical Ltd. • Respecta Ltd.

  18. Main areas of expertise • Biosignal measurements • Usability and ergonomics • Prototypes and testing

  19. Equipment in biosignal measurements • Gaitrite: walking analysis • Technogym Runrace: running mat • Polar heart rate monitors and computers • Ergoline Ergoselect test ergometer

  20. Equipment in usability and ergonomics • The Observer Video-Pro and mobile usability unit • Tobii 1750 Eye Tracker

  21. Equipment in prototypes and testing • FDM Vantage – Rapid prototyping machine • BoundaryScan – Electrical circuit testing system

  22. Medical engineering laboratory • Electrical workbench for testing and building measurement electronics • Usability unit • EM-shielded room

  23. Usability unit

  24. Tobii Eye Tracker • Can be used to determine what the user actually looks at when using a computer program or seeing a web page or video clip etc.

  25. Rapid medical modeling • Based on Rapid Prototyping Technology. • The production process is controlled by 3D radiological images of the patient's anatomy • Photolitographic technique produces plastic model of the 3D image

  26. Rapid medical models can be used • For surgical planning and simulation • For custom made implant design • For medical education and research • As a communication aid for patients and colleagues

  27. Rapid prototyping • In co-operation with Oulu University Hospital, Department of Diagnostic Radiology and Oulu Polytechnic, Institute of Technology. • Data is converted to SLC or STL file format. • Data transter to Oulu Polytechnic where data is reformatted for modeling. • Maximum model size using SLA 250 stereolithography equipment is 250 x 250 x 250 The model is delivered in two weeks after receiving the data.

  28. ONE REPETITION MAXIMUMPREDICTION FROM A SUBMAXIMAL PERFORMANCE IN WEIGHT LIFTINGManne Hannula, Jukka Jauhiainen and Sami Äijälä • An example of an ”own” research project of the RD Center • Patent pending • The use of acceleration sensors to estimate how much weight can be lifted once • Bench press and dumbbell concentration curl • 30 subjects • Mean absolute error less than 10 %

  29. Thank You • Further information: manne.hannula@oamk.fi (biosignals) terhi.holappa@oamk.fi (usability) pekka.knuuti@oamk.fi (rapid prototypes) juha.sievi-korte@oamk.fi(circuits testing)

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