BIOMECHANICAL ENGINEERING PROGRAM 13:45 Introduction OH 218 14:15 Lab tour: 3 labs near the south entrance (Arms lab, Movement lab, surgical lab) 15:00 coffee, sodas, general info outside surgical lab + open house 16:00 end
Biomechanical Engineering Group BART KOOPMAN
BIOMECHANICAL ENGINEERING GROUP CHAIRS Bart Koopman Biomechanical Engineering - Herman van der Kooij Neural Biomechanics Bart Verkerke Biomedical Design Engineering - Hans Rietman Rehabilitation Technology Nico Verdonschot Implants Technology - Jan Grandjean Technology in Cardiac Surgery Sarthak Misra Surgical Robotics
research BIOMECHANICAL ENGINEERING GROUP ENGINEERING FUNDAMENTAL Tumor fractures Medical Areas ORTHOPEDICS REHABILITATION & NEUROLOGY Scoliosis correction Rehabilitation robotics Neuromusculoskeletal models
Improving safety and predictability of complex musculo-skeletal surgery using a patient-specific navigation system [TLEMsafe] Project funded by the European Commission
Hip dysplastic patient 6
Development of an adaptive arm orthosis that compensates for the progression of Duchenne Muscular Dystrophy Weight compensation Actuation ADAPTIVE ROBOTICS FLEXTENSION ARMONDERSTEUNING Intuitive control
SENSIBLE ROBOTICS REFLEXLEG: BEENPROTHESE MET GEVOEL Reflexleg energiezuinige aandrijving met veren (krachtgestuurd) ondersteund door kleine motoren
REHABILITATION ROBOTICS OVERALL VIEW OF REHAB ROBOTS IN TWENTE Lopes 1 Freeball Dampace
REHABILITATION ROBOTICS LOPES 2
Upper-Extremity Robots and Exoskeletons Freebal Weight- Support Training Dampace Force- Coordination Training Limpact Movement- Modulated Training
Advanced Rehabilition and Diagnostic Robotics 2005 2009 2011 2010 2012 2007 2009 2010 2011 2011 2012
Including for Brain and Hands Symbionics Kickoff - University of Twente - Arno Stienen 14 12/12/14
REHABILITATION ROBOTICS TMS ROBOT
SURGICAL ROBOTICS SARTHAK MISRA
MASTER PROGRAMS DOORSTROOMMATRIX VAN BSC NAAR MSC MSc Mechanical Engineering BSc Program ME BME IDE AT TG EL TN MSc Biomedical Engineering MSc Industrial Design Engineering Green: Direct Admission Possible Yellow: Admission with Additional 30 ECTS White: Custom Solution Required 17
MASTER TRACKS SPECIALIZATION IN EACH MASTER PROGRAM Experi ment We design and build our own devices based on models and experimental results We run experiment on volunteers and patients with our device to validate our models Device Model We model the results to enhance our hypotheses and improve our devices Master Tracks: Research Track: Analysis & Simulation Design Track: Design & Development Combined Track 18
MSC COURSES PERSONAL SELECTION OF COMPULSORY AND ELECTIVE COURSES Compulsory Courses Depends on your bachelor degree, master program & master track Core Courses Biomechanics Biomechatronics Rehabilitation Technology Design of Biomedical Products Human Movement Control Identification of Human Motor Control Elective Courses Technical courses Biomedical courses Mathematics courses From other programs 19
MSC THESIS PROJECT SECOND YEAR OF THE MSC PROGRAM (International) Internship (15 ECTS) (Except for the MSc IDE) Thesis Project (45 ECTS) You choose a personal thesis project based on conversations with staff members and research exposure during class projects. https://www.utwente.nl/ctw/bw/ 20
MSC INTERNSHIPS Netherlands Roessingh Research and Development (Enschede) Medisch Spectrum Twente (Enschede) Radboud Medical Center (Nijmegen) Other academic and medical centers Other companies (BAAT, MOOG, Demcon, TNO, Hankamp, etc) Europe & Worldwide Research centers and companies in Germany, Switzerland, England, etc. Research centers in USA, Australia, New Zealand, South Africa, etc. 21