Checking date: 08/06/2018


Course: 2019/2020

Medical instrumentation and devices
(15563)
Study: Bachelor in Biomedical Engineering (257)


Coordinating teacher: VAQUERO LOPEZ, JUAN JOSE

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

Type: Electives
ECTS Credits: 6.0 ECTS

Course:
Semester:




Students are expected to have completed
Mandatory: - Introduction to the design of biomedical instrumentation - Electronic technology in biomedicine - Measuring Instrumentation - Systems and Signals - Control Engineering Recomended - Physics I, II and III - Differential Equations - Robotics
Competences and skills that will be acquired and learning results. Further information on this link
This is a project-based course in which the student will acquire a comprehensive understanding of the design of medical, surgical and interventional instrumentation. The students will have to apply their previous knowledge (electronics, signal processing, physiology, fluid mechanics, biochemistry, etc.) to design and build a functional medical devices from the several ones that will be introduced during the course. The lectures and seminars will serve to guide the construction of the instrument, and this will be done by means of different examples introduced in the guided practices. The resulting functional medical device evaluation will have a high impact in the final mark.
Description of contents: programme
The program will cover descriptions, analysis and study cases related to medical devices, instruments and signal processing for application like the ECG and the EEG, light sensors for biomedical instrumentation, advanced electronics for laboratory instrumentation, diagnose and therapy, prosthesis, image-assisted treatment and therapy monitoring in real time, mathematical and computational models to aid diagnosis and to assist surgical devices with real time control and expert systems for image guided interventions among other. This is the specific syllabus implementation: 1. Introduction a. Biomedical instrumentation b. PoC for primary care review c. Radiation Detectors and semiconductor light detectors 2. Applications in Cardiology a. ECG basic electronics b. ECG signal processing fundamentals c. ECG monitor design 3. Application in Neurology a. EEG b. EEG analysis c. Brain hacking 4. Hearing aids a. Hearing aids b. Cochlear implants c. Audio Processing d. Speech Processing 5. Monitoring and respirators a. Pulsioxymetry b. Respirators 6. Image Guided Interventions a. Image Guided Interventions and tracking systems b. Patient to image registration c. Point-based Rigid registration 7. Therapeutic devices: Radiotherapy a. Intro to External Radiotherapy b. Radiotherapy c. Linear Accelerator 8. Surgical Robots a. Computer- and robot-assisted medical interventions b. Review of surgical robots for spinal interventions 9. Laboratory Practices a. ECG Processing using Matlab: ECG data analysis, ECG acquisition with the NI environment ECG signal processing b. Radiation detector c. Image Guided Interventions 10. Final system design
Learning activities and methodology
This is a project-based course in which the student has to build a medical device that will be tested and evaluated. To support the project design, the teaching methodology will be mainly based on lectures that will introduce the fundamental concepts, seminars where the device design will be analysed, and practical sessions in the laboratory. Students are required to read assigned documentation before lectures and seminars. Lectures will be used by the teachers to stress and clarify some difficult or interesting points from the corresponding lesson. Seminars will be mainly dedicated to interactive discussion with the students and short-exams will be passed during these sessions. Tutorship regime will be announced in Aula Global.
Assessment System
  • % end-of-term-examination 40
  • % of continuous assessment (assigments, laboratory, practicals...) 60
Basic Bibliography
  • J.G. Webster. Principles of Applied Biomedical Instrumentation. John Wiley and Sons, Inc.. 2009
  • Leif Sörnmo, Pablo Laguna. BIOELECTRICAL SIGNAL PROCESSING IN CARDIAC AND NEUROLOGICAL APPLICATIONS. Elsevier Academic Press. 2005
Additional Bibliography
  • G.D. Baura. Medical Device Technologies. Academic Press. 2012
  • Glenn F. Knoll. Radiation Detection and Measurement, Fourth Edition. Wiley. 2014
  • Robert B. Northrop . Analysis and Application of Analog Electronic Circuits to Biomedical Instrumentation. CRC Press. 2012

The course syllabus and the academic weekly planning may change due academic events or other reasons.