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Biomedical Engineering A New Era of Multi-Disciplinary Research Jackrit Suthakorn, Ph.D. Norased Nasongkla, Ph.D. Panrasee Rittipravat, Ph.D. Pornpimol Sritongkham, Ph.D. Department of Biomedical Engineering, Faculty of Engineering, Mahidol


  1. Biomedical Engineering A New Era of Multi-Disciplinary Research Jackrit Suthakorn, Ph.D. Norased Nasongkla, Ph.D. Panrasee Rittipravat, Ph.D. Pornpimol Sritongkham, Ph.D. Department of Biomedical Engineering, Faculty of Engineering, Mahidol University

  2. Biomedical Engineering

  3. Current Biomedical Engineering in Thailand Mahidol University: Multi-Research Track Department of Biomedical Engineering (1998) Ph.D., Master and Bachelor’s Programs Chulalongkorn University: Bioelectronics and Tissue Engineering Research Ph.D. and Master Programs (2007) Chiang Mai University: Bio-image Processing Research Ph.D. and Master Programs (2006) KMITL: Medical Imaging Research Master and Bachelor’s Programs (2012) Prince of Songkla University: Bio-Signal Processing Research Bachelor’s Program (2007) Srinakharinwirot University: Generic Bachelor’s Program (2008)

  4. Department of Biomedical Engineering, Mahidol University Research Tracks: 1. Bio-signal and Image Processing 2. Tissue Engineering and Drug Delivery System 3. Advanced Computing in Medicine 4. Rehabilitation Engineering and Artificial Organs 5. Robotics and Computer-Integrated Surgery 6. Biosensors and Medical Instrumentation Number of Students: Ph.D. Program: 23 students Master Program: 42 students Undergrad Programs: 40 students/year

  5. Department of Biomedical Engineering, Mahidol University Research Center and Labs: 1. Center for Biomedical and Robotics Technology (BART LAB) 2. Artificial Intelligent in Medicine Lab (AIM LAB) 3. Scaffold for Tissue Engineering Lab (STEN LAB) 4. Biopolymers and Nanoengineering for Drug Delivery and Molecular Imaging Lab (BioNEDD LAB) 5. Brain-Computer Interface Lab (BCI LAB) 6. Cardiovascular Engineering and Artificial Organs Lab (CardioArt LAB) 7. Biosensors and Bioelectronics Lab (BIOSENS LAB) 8. Neuro-EXploration Technology Lab (NEXT LAB) 9. Smart Motion and Rehabilitation Technology Lab (SMART LAB)

  6. Collaboration Selected National Institutes: Selected International Institutes: Mahidol University: 1. Johns Hopkins University, USA 1. Faculty of Medicine Siriraj Hospital 2. Columbia University, USA 2. Faculty of Medicine Ramathibodi Hospital 3. Harvard University, USA 3. Faculty of Science 4. University of Massachusetts, Amherst, USA 4. Faculty of Physical Therapy 5. Case Western Reserve University, USA 5. Faculty of Medical Technology 6. University of California, Los Angeles, USA and Other Faculties 7. Queen's University, Canada Other Institutes and National Research Center: 8. Osaka University, Japan 1. NSTDA by NECTEC, MTEC and NANOTEC 9. Kyushu University, Japan 2. Chulalongkorn University 10. Seoul National University, Korea 3. Chulabhorn Research Institute 12. National University of Singapore, Singapore 4. Thailand Center of Excellence for Life 13. Nanyang Technological University, Singapore Sciences (TCELS) 14. University of Glasgow, UK 5. National Cancer Institute 15. Medical University of Vienna, Austria 6. MOST, MOPH and MICT 16. Bonn-Rhein-Sieg, Germany

  7. Artificial Intelligence in Medicine Asst.Prof. Panrasee Ritthipravat

  8. AI in Medical Applications • Bioinformatics • Medical Image Analysis � CAD, CAS • Robotics and Rehabilitation • Prognosis Problems • Biosignal Analysis • Medical Reasoning • Etc. ‐‐ Asst.Prof.Dr.Panrasee Ritthipravat ‐‐

  9. AIM LAB projects • Computer Aided Diagnosis: IM-AIM – IM-AIM supports NPC and bone tumor region identification from CT and MRI respectively. – 3D visualization of the tumor can be viewed. – Risk of NPC recurrence is provided for each patient . ‐‐ Asst.Prof.Dr.Panrasee Ritthipravat ‐‐

  10. AIM LAB projects • Rehabilitation System for Stroke Patients – Haptic and VR technologies are integrated into the system. ‐‐ Asst.Prof.Dr.Panrasee Ritthipravat ‐‐

  11. AIM LAB projects • Therapeutic Robots for Children with ASD ‐‐ Asst.Prof.Dr.Panrasee Ritthipravat ‐‐

  12. What is a biosensor? • Biosensors are diagnostic tools that can provide rapid results, are highly sensitive, simple to use, inexpensive, and can be miniaturized. ‐‐ Dr.Pornpimol Sritongkham ‐‐

  13. Multidisciplinary dimension of biosensor prototype design and system integration is shown in the diagram. http://yildizuludag.wordpress.com ‐‐ Dr.Pornpimol Sritongkham ‐‐

  14. Biosensors and Bioelectronics Laboratory Current Researches An amperometric • homocysteine biosensor for screening and point-of-care testing for patients with cardiovascular disease. Simultaneous determination of • biomarkers for Alzheimer’s disease using biosensor array and microfluidic chips. Electrochemical • characterisation of co- immobilised enzymes/AuNP/PEDOT-PSS for acetylcholine detection. Paper-based microfluidic chip • for using in electrochemical biosensor applications ‐‐ Dr.Pornpimol Sritongkham ‐‐

  15. Medical Robotics and Computer Integrated Surgery Main Applications: 1. Surgery 2. Rehabilitation and Diagnosis 3. Hospital Services and Logistics Jackrit Suthakorn, Ph.D.

  16. Surgical Robotics and Navigation System Breast Biopsy Navigation using Mammogram Image with RT ‐ Ultrasound MU ‐ LapaRobot: ACooperative Surgical Robot for Cholatip Wiratkapu, Ramathibodi Hospital Laparoscopic Surgery Supported by: Mahidol University Chumpon Wilasrusmee, Ramathibodi Hospital Supported by: National Research University (NRU) Fluoro ‐ Navigation for Closed Intramedullary Nailing of Femur Banchong Mahaisavariya, Siriraj Hospital Supported by: National Metal and Materials Technology Center (MTEC) The Electronic Simulator Eye Model for Ophthalmic Anesthesia Adisai Varadisai, Chulalongkorn Hospital Supported by: National Science and Technology Development Agency (NSTDA) Jackrit Suthakorn, Ph.D.

  17. Rehabilitation and Diagnosis Mems Based Intracranial Pressure Sensor for Traumatic Brain Injury SorayouthChumnanvej , Ramathibodi Hospital Supported by: National Research University (NRU) Colonoscope Tracking using Electromagnetic Tracking System Sathaporn Manatsathi t , Siriraj Hospital Supported by: National Metal and Materials Technology Center (MTEC) BART LAB ‐ LL ‐ EXO 1: A Lower Exoskeleton for Spine Injured Patients Robotic Mono ‐ Filament Testing Device for Supported by: National Research Diabetic Neuropathy Council of Thailand (NRCT) Chumpon Wilasrusmee, Ramathibodi Hospital Supported by: Mahidol University MAGIC Socks Chumpon Wilasrusmee, Ramathibodi Hospital Supported by: National Research University (NRU) Jackrit Suthakorn, Ph.D.

  18. Hospital Service and Logistics Robotics for Drug Dispensing and Delivery in Hospital Logistics Applications Golden Jubilee Medical Center Supported by: National Research Council of Thailand (NRCT) Jackrit Suthakorn, Ph.D.

  19. www.bartlab.org Faculty Member: 3 Collaborators: 10 Full-Time Researcher: 4 Ph.D. Student: 7 Master Student: 13 Alumni: 20 Jackrit Suthakorn, Ph.D.

  20. Brain ‐ Computer Interface Lab (BCI Lab) Department of Biomedical Engineering, Mahidol University Overview of BCI System

  21. Selected Projects of BCI Lab Brain ‐ Controlled Wheelchair: Using brain wave to control the direction of wheelchair with the navigation and error correction system via laser scanner Brain ‐ based Sleep Analysis: The 1 st sleep competition in the world to use brain wave iThink2: as the alarm to wake people up from power napping Smart home control via brain wave Neurofeedback Device for Person International Patent with Mental Disabilities: The 1 st system to simultaneously use System and Method for SSVEP Based Control of Electrical Devices hemoencephalogram and PCT/TH2010/000036 electroencephalogra m

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