Checking date: 07/07/2021


Course: 2021/2022

Introduction to the design of medical instrumentation
(15554)
Study: Bachelor in Biomedical Engineering (257)


Coordinating teacher: GOMEZ CID, LIDIA

Department assigned to the subject: Department of Bioengineering and Aerospace Engineering

Type: Compulsory
ECTS Credits: 6.0 ECTS

Course:
Semester:




Requirements (Subjects that are assumed to be known)
Introduction to bioengineering Electronic technology in biomedicine Measuring instrumentation Signals and Systems or Digital Signal Processing
Objectives
The student that successfully finishes this course should understand the biomedical application, specify the user and technical specifications, and provide a complete protocol for the design of a medical instrument. Besides, after the completion of this course the student should be able to implement a functioning medical instrument using state-of-the-art electronics and sensor technologies.
Skills and learning outcomes
Description of contents: programme
1. Introduction to Biomedical Instrumentation 2. Signal Amplification 3. Signal Filtering 4. Electrical Safety 5. Electrocardiology. ECG characteristics. 6. Electroencephalography. EEG characteristics 7. Other Biopotential Recordings: EMG, ENG, ERG, EOG 8. Biopotential Amplifiers 9. Electrodes and Electrolytes. 10. Sensors: biophysics, design, applications. 11. Introduction to Signal Digitalization 12. Therapeutic and Prosthetic Devices 13. Pressure and Sound Measurements 14. Flow and Volume Measurements 15. Introduction to Optical Measurement Systems
Learning activities and methodology
Teaching methodology will be mainly based on lectures, seminars and practical sessions. Lectures will be used by the teachers to present the main concepts of the course. Seminars will be mainly dedicated to interactive discussion with the students and to stress and clarify the most interesting and difficult points. Deliverable exercises and presentations will be done during the sessions. Grading will be based on continuous evaluation (including a partial exam, practical sessions, and student participation in class and Aula Global) and a final exam. Help sessions and tutorial classes will be held prior to the final exam. Attendance to lectures, short-exams or submission of possible homework is not compulsory. However, failure to attend any exam or submit the exercises before the deadline will result in a mark of 0 in the corresponding continuous evaluation block. The practical sessions will consist on laboratory work. A laboratory report will be required. The attendance to practical sessions is mandatory. Failure to hand in the laboratory reports on time or unjustified lack of attendance will result in 0 marking for that continuous evaluation block.
Assessment System
  • % end-of-term-examination 35
  • % of continuous assessment (assigments, laboratory, practicals...) 65
Calendar of Continuous assessment
Basic Bibliography
  • J.G. Webster. Medical Instrumentation Application and Design. John Wiley and Sons, Inc..
  • L.A. Geddes and L.E. Baker. Principles of Applied Biomedical Instrumentation. John Wiley and Sons, Inc..
Additional Bibliography
  • A.F. Arbel. Analog Signal Processing and Instrumentation. Cambridge University Press.
  • J.B Olansen, E. Rosow. Virtual Bio-Instrumentation. Prentice Hall PTR.
  • L. Cromwell, F.J. Weibell, E.A. Pfeiffer. Biomedical Instrumentation and Measurements. Prentice Hall Career & Technology.
  • R. Sarpeshkar. Ultra Low Power Bioelectronics. Cambridge University Press.

The course syllabus may change due academic events or other reasons.