welcome to biomedical engineering...bioengineering technologies physiological signals and systems...
TRANSCRIPT
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WELCOME TO
BIOMEDICAL ENGINEERINGwww.utwente.nl/go/bme
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IN THIS PRESENTATION
Biomedical Engineering Specializations Career Admission / Pre-master Questions?
1. 2. 3. 4. 5.
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1. BIOMEDICAL ENGINEERINGGENERAL OVERVIEW:
• WHAT IS IT?
• STRUCTURE OF THE MASTER
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WHAT ISBIOMEDICAL ENGINEERING?
▪ Interdisciplinary field, combining engineering and natural and life
sciences
▪ Research, design, and develop medical innovations
▪ This two year, English taught programme is tailor-made and has
four specializations
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Track
ElectivesObligatorycourses
Yea
r 1
Yea
r 2
60EC
60ECInternship Masters assignment
STRUCTURE OF THE MASTERBIOMEDICAL ENGINEERING
Free
Electives
Obligatory Courses all tracks:
- Biostatistics
- Technology for Health
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2. SPECIALIZATIONSBIOENGINEERING TECHNOLOGIES
PHYSIOLOGICAL SIGNALS AND SYSTEMS
BIOROBOTICS
IMAGING & in vitro DIAGNOSTICS
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The development of technologies that mimic or
restore the function of diseased and damaged
organs and tissues.
BIOENGINEERING
TECHNOLOGIES
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STRUCTURE OF THE TRACK
Compulsory courses (30 EC):
▪ Applied Cell Biology
▪ Biomedical Membranes & Bioartificial Organs
▪ Tissue Engineering
▪ Biological Chemistry
Elective courses (30 EC) e.g. :
▪ Biophysical Techniques & Molecular Imaging
▪ In Vitro Diagnostics
▪ Nanomedicine
▪ Biomedical Optics
▪ Bionanotechnology
▪ Lab-on-a-chip
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Bionanotechnology (Course)
• Looking at biology and biological concepts at the nano-scale
• Example: Using Virus Like Particles for drug delivery
Viral structures
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Organ on chip (Field of interest)
• Courses: • Lab-on-a-chip
• In Vitro Diagnostics
• Tissue Engineering
• Biomedical Membranes
• Research groups Utwente e.g.:• Applied Stem Cell Technologies (AST)
• BIOS: Lab-on-a-chip
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Possible internships
• Hospitals• Radboud UMC
• Medisch Spectrum Twente
• Companies• MIMETAS Leiden (Organ on chip research)
• Micronit Enschede (Microtechnologies)
• Universities• TU Delft
• Abroad
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Develop technological solutions for health and clinical problems in which human physiological systems are dysfunctional due to trauma or disease.
PHYSIOLOGICAL SIGNALS & SYSTEMS
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COURSES
Compulsory courses (30 EC)
• Integrative Design of Biomedical Products
• Advanced Techniques for Signal Analysis
• Identification of Human Physiological Systems
• Clinical Research Methods
Examples of elective courses
• Biomedical Signal Acquisition
• Mathematical Methods
• Human Movement Control
• Basic Machine Learning
• Remote Monitoring and Coaching
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INTERNSHIPS
A lot is possible, some examples include:
• Xsens: Assessment of the performance of Xsens MVN
• Össur (Iceland): non-invasive, sensor-stimulator device using Transcutaneous Electrical Nerve Stimulation
• Personally, I am looking into the sensor department at (luxurious) car manufacturers
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GRADUATION PROJECT
Graduation project for a department of University of Twente, for example:
• Roessingh Research & Development: Human motor intent recognition for lower limb by ir. Robert Schulte
• Using multi-array EMG and machine learning to create Intuitive Prosthetic Control
• Biomedical Signals and Systems: Pride & Prejudice – Technology To Support Healthy Eating
• Modelling fluctuations in blood glucose levels based on food intake and physical activity in patients with Diabetes Mellitus Type 2
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BIOROBOTICSThis specialization focuses on the design of
robotics and prostheses in medical applications
and support of human functions
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Courses
Compulsory courses
• Integrative Design of BiomedicalProducts
• Clinical Research Methods or Ergonomics
• Biomechanics of Human Movement
• Topics in Human Anatomy & Sport Physiology
Examples of elective courses
• Control for (B)ME
• Programming
• Biomechatronics
• Robotics for Medical Applications
• Identification of Human PhysiologicalSystems
• Human Movement Control
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INTERNSHIP EXAMPLE: DESIGN AND DEVELOPMENT OF A CLASSIFICATION ALGORITHM FOR A HAND-EXOSKELETON BASED ON HYBRID SIGNALS
• General: Robotics and Exoskeletons
• Combination different methods
• Mix between hardware and software
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INTERNSHIP EXAMPLE: DESIGN AND DEVELOPMENT OF A CLASSIFICATION ALGORITHM FOR A HAND-EXOSKELETON BASED ON HYBRID SIGNALS
• Creating control algorithms
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THESIS EXAMPLE: FURTHER DEVELOPMENT AND IMPROVEMENT OF A PASSIVE ELBOW EXOSKELETON DESIGN
• Elbow Exoskeleton
• Passive & Active
• Designing with software• Optimization algorithm
• Software & hardware
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Techniques for visualizing and interpreting the
processes in cells and bodies (based on optics, lab-
on-a-chip and other in vitro diagnostics, photo-
acoustics, ultrasound, radiation and magnetism)
IMAGING & in vitro
DIAGNOSTICS
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Courses
Compulsory courses
• Imaging in Radiology
• In Vitro Diagnostics
• Biophysical Techniques & MolecularImaging
• Mathematical Methods
Examples of elective courses
• Biomedical Optics
• Medical Acoustics
• Magnetic Methods for (Neuro)Imaging
• Image Processing and Computer Vision
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Research example: Noninvasive blood analysis in newborns by spectroscopic OCT (BMPI)
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EXAMPLES OF INTERNSHIPS AND GRADUATION PROJECTS
Internship example
• Paul Scherrer Institute, Switzerland: 4D planning for proton therapy lung treatments.
Graduation project examples
• Nanobiophysics: Monomeric alpha-synuclein structure assessed by FRET mapping.
[2] https://www.olympus-lifescience.com/en/microscope-resource/primer/techniques/fluorescence/fret/fretintro/
[1] https://www.olympus-lifescience.com/en/microscope-resource/primer/techniques/fluorescence/fret/fretintro/
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PRE-MASTER PROCEDURE
▪ Approximately 30 EC spread over 2 or 3 quartiles
▪ Appointment with a study advisor
→The courses are chosen based on student’s background
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PRE-MASTER PROCEDURE
General case:
▪ Calculus A
▪ Calculus B
▪ Linear Algebra
▪ Matlab programming course
▪ Academic research skills
My case:
▪ System analysis
▪ Signals and systems
▪ Anatomy
Advised courses:
▪ Latex course
▪ Academic writing course
▪ Python
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PRE-MASTER PROCEDURE
My experience compared to HBO:
▪ Mathematical courses:
▪ All of the previous knowledge repeated in 6 weeks
▪ Take time to study and understand
▪ Theory and exams:
▪ Difficulty comes from the different mindset
▪ Course material is more extensive
▪ Practical:
▪ Comparable to HBO
▪ Do not be afraid to use previous knowledge
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DIFFERENCES TRACKS
• Possible research groups for graduation• Obligatory courses
• Intensive collaboration research groups/grey zones
• Think backwards: On which topic would you like to graduate? This defines the research group(s) and thereby the preferred track
• Research groups can be found on: https://www.utwente.nl/en/education/master/programmes/biomedical-engineering/research/
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3. CAREERJOB PROSPECTS FOR BME GRADUATES
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CAREER PROSPECTS
▪ Career in research (e.g. PhD position at a university or research institute)
▪ Career in business and industry
▪ Research & development
▪ Systems engineer
▪ Further specialization to work as a clinical physicist in a hospital
▪ Working as a consultant for healthcare providers, forging a link between research and the market
▪ All graduates so far have high-level jobs within months after graduating
▪ Product specialist
▪ Project manager
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BME GRADUATES WORK
ORGANIZATIONS WHERE OUR
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CAREER
LinkedIn → ‘University of Twente’ ‘See Alumni’
• Filter on ‘Biomedical/Medical Engineering’ + ‘Bioengineering and Biomedical Engineering’ + ’?’
• All possible careers
• Academic Transfer
• UT Career service + Study advisor for personal support
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4. ADMISSION+ PRE-MASTER
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ADMISSION
DIRECT ADMISSION
Students with a University Bachelor’s degree in :
▪ Applied Physics
▪ Biomedical Technology
▪ Chemical Engineering
▪ Electrical Engineering
▪ Mechanical Engineering
▪ Technical Medicine
WHAT IF YOU HAVE DIFFERENT BACHELOR’S DEGREE?
▪ Students with a Bachelor’s degree in a relevant field of study who possess similar competencies may be considered
for admission after first completing a tailor-made pre-master programme
▪ www.doorstroommatrix.nl and contact via [email protected]
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SUPPORT
• Study advisor• Choosing track/course list• Finding and completing assignment• Personal circumstances• Career orientation
• Online learning environment
• Supervisors
• UT Wide• Workshops on academic skills
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▪ Focus on health and technology
▪ High-tech Human Touch
▪ TechMed Centre
▪ Combining research, design, and development
▪ Specific research groups
▪ High student satisfaction
@UTWENTE.WHY BME
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▪ If you have any questions about the MSc BME
programme, feel free to contact our study advisor
▪ Email: [email protected]
▪ Information is also available on our website:
utwente.nl/go/bme
INFORMATIONMORE
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5. QUESTIONS?www.utwente.nl/go/bme
www.utwente.nl/meeloopdagen