Course detail

Medical Diagnostic Technology

FEKT-ALDTAcad. year: 2018/2019

The topics in this course cover operating principles and construction of diagnostic devices and systems for recording of electrical biosignals and non-electric characteristics from human body (ECG,EEG,EMG, EGG, impedance measurements, recording of blood pressure, measurement of blood flow, pletysmography, temperature measurment). The LabView programming environment is used for practicle experiences with acquisition and processing of different biosignal. The Vernier sensors and acquisition cards are used for this purpose as well.

Language of instruction

Czech

Number of ECTS credits

5

Mode of study

Not applicable.

Learning outcomes of the course unit

Student will obtain knowledge about principles and properties of selected medical instrumentation used for diagnosis. Student will be able to apply this knowledge during data/signal interpretation or during specification and selection process of medical instruments. The student is able to:
- describe principles of bio-amplifiers,
- list and dicussed their properties,
- describe and explain principles of instrumentations for ECG, EEG and EMG sensing,
- describe and explain methods and devices for non-invasive and invasive blood pressure measurement,
- list methods for blood flow measurement,
- explain dilution method for blood flow measurement,
- apply Doppler principle for blood flow measurement,
- define principle of methods in pletysmography,
- discuss and define source of errors in selected diagnostic approaches,
- explain term "vital function monitoring"

Prerequisites

Student should be able to describe basic pasive electronic components (resistance, inductance, capacitance) and should have knowledge about basic physical laws and properties of physical fields obtained in Physics I and II.

Co-requisites

Not applicable.

Planned learning activities and teaching methods

Techning methods include lectures and practical laboratories. Course is taking advantage of e-learning (Moodle) system. Students have to write three assignment during the course.

Assesment methods and criteria linked to learning outcomes

Laboratory work - 0 - 20 points.
Test - 0 - 30 points.
Written exam - 0 - 50 points.
The test is oriented to basic terminology.
The written exam verify knowledge in principle of medical instrumentation.

Course curriculum

1. The recording electrodes, polarization, types of electrodes.
2. Amplifiers for biosignals acquisition. Requirements on amplifier and its design.
3. Electrocardiography, properties of ECG signal, principle of sensing and design of electrocardiograph.
4. Electroencephalography, properties of EGG signal, principle of sensing and design of electroencephalograph.
5. Electromyography, properties of EMG signal, principle of sensing and design of electromyograph. Stimulators.
6. Phonocardiography - sensing of heart's sounds, properties of signal, design of electrophonograph.
7. Pletysmography - impedance and optic principles.
8. Blood pressure monitoring - invasive and non-invasive approach.
9. Instrumentation for respiratory monitoring, apnea alarm.
10. Blood flow monitoring.
11. Principles of temperature sensing.
12. Monitoring of the vital functions and its link to hospital information system.

Work placements

Not applicable.

Aims

The aim of this course is to provide a fundamental knowledge in acquisition of basic electric and non-electric biosignals and to provide a description and meaning about parameters provided by manufacturers of different medical devices.

Specification of controlled education, way of implementation and compensation for absences

Laboratory exercises are obligatory. Excused absence can be substituted.

Recommended optional programme components

Not applicable.

Prerequisites and corequisites

Not applicable.

Basic literature

Chmelař M.: Lékařská laboratorní technika, skriptum VUT 2000 (CS)
Chmelař M.: Lékařská přístrojová technika 1, Akademické nakladatelství CERM, 1995 (CS)
Kolář, R: Lékařská diagnostická technika, elektronická skripta VUT, 2007 (CS)
Navrátil,L., Rosina,J.: Medicínská biofyzika, Grada, 2005 (CS)
Rozman,J a kol.: Elektronické přístroje v lékařství, Academia, 2006 (CS)

Recommended reading

Bronzino, J.D. The Biomedical engineering Handbook, CRC Press, Boca Raton 1995 (EN)

Classification of course in study plans

  • Programme BTBIO-A Bachelor's

    branch A-BTB , 3 year of study, winter semester, compulsory

  • Programme EEKR-CZV lifelong learning

    branch EE-FLE , 1 year of study, winter semester, compulsory

Type of course unit

 

Lecture

26 hod., optionally

Teacher / Lecturer

Syllabus

1. Recording electrodes, polarisation of electrodes, types of electrodes
2. Amplifiers for biological signals, requirements and solutions.
3. Electrocardiography, EKG characteristics, the principle of operation and parameters of the device,
used recording systems, analysis and evaluation of EKG, automated electrocardiographs with
diagnostic characteristics.
4. Electroencelophalography, EEG characteristics, the principle and parameters of the apparatus,
methods of recording and evaluating brain signals, supplementary devices (photostimulator,
phonostimulator).
5. Other biological electric signals - electromyograph, electroretinogram, electrooculogram.
6. Phonocardiography.
7. Pletysmography - tissue volume measurment.
8. Blood pressure measurement, invasive and non-invasive measurement, the principles of employed
methods
9. Devices for measurement of breathing, ‚apnea alarm‘, breath volumes.
10. Devices for blood flow measurement.
11. Temperature measurement.
10. The principles of monitoring techniques, operation of monitors and their connection to hospital
information system

Laboratory exercise

26 hod., compulsory

Teacher / Lecturer

Syllabus

1. LabView - introduction, basic mathematical operations.
2. LabView - signal filtering, spectral analysis.
3. LabView - files, data acquisition.
4. EEG signal processing, individual work.
5. LabPro in LabView.
6. LabView - R wave detection in ECG signal I, individual work
7. LabView - R wave detection in ECG signal II, individual work
8. LabView - R wave detection in ECG signal III, individual work
9. Introduction to electronic measurment.
10. Antialiasign filter design
11. Hardware realization of antialiasing.
12. Practical lab with medical ultrasound device, fundus camera, spirometer, audiometer.
13. Test