Medical Instrumentation and Devices

Lecturer:

Tutor:

Supervisor:

Department of Radioelectronics

Synopsis:

Students will study fundamental principles applied within the modern medical devices and systems, esp. from thr point of view of functional blocks and electronic circuits of diagnostic and therapeutic medical equipments including: electrocardiographs, electroencephalographs, bedside and central monitors, equipments for anesteziology, intenzive and critical healthcare, equipments for clinical laboratory, electrostimulators, cardiostimulators and defibrilators, equipments for audiology and opthalmology, blood pressure and flow measurement (including dilutuion), pulse oxymetry. The syllabus within the therapeutic equipments concentrates mainly on hearing aids, cochlear neuroprosthesis, therapeutic applications of ultrasound, design and utilisation of ultrasonic systems, rhinometry and radiation equipment.

Requirements:

Syllabus of lectures:

1. Classification of medical equipments. Electrocardiographs, electroencefalographs and electromyographs

2. ElectrocardiographsMonitors (bedside and central)

3. Electroencefalographs and electromyographs

4. Medical monitors (bedside and central)

5. Equipments for blood pressure and flow measurement, pulse oxymeters

6. Equipments for anesteziology, intenzive and critical healthcare

7. Equipments for clinical laboratory with application of analytical methods

8. Electrostimulators, cardiostimulators, defibrilators

9. Equipments for audiology and opthalmology

10. Instrumentation aided hear sensing

11. Therapeutic ultrasonic transducers and generators. Lithotripsy

12. Ultrasound systems for urology, surgery and stomatology

13. Radiotherapy, X radiation and high energy radiation equipment

14. Stereotactic radiosurgery, Leksell gamma knife

Syllabus of tutorials:

1. Introduction to lab. exper., regulations for experimental work, safety regulations. Explanation of lab. experiments

2. Measurement on bedside and central monitor and arythmia monitor

3. Measurement of blood pressure (incl. application of strain gages)

4. Measurement on pulse oxymeter - analogue part

5. Dilution methods for blood flow measurement

6. Measurement of HF ventilator

7. Measurement of „flow-volume“ (f-V) graph on simplified model of spirometer

8. Excursion on medical clinic

9. Design and analysis of equivalent circuits of human ear. Measurement of a transfer function of hearing aids

10. Measurements of frequency responses of cochlear neuroprotheses

11. Propagation of ultrasonic waves in human body. UW velocity measurement

12. Computer design of ultrasonic transducers for stomatology and dermatology

13. Measurements of a transfer function of designed ultrasonic transducers

14. Rhinometry. Determination of an impulse response of the upper airway area

Study Objective:

Study materials:

1. Webster, J. G. Medical Instrumentation. Application and Design. 2. ed. Boston: Houghton Mifflin Company. 1992

2. Bronzino, J. D. The Biomedical Engineering Handbook. Boca Raton: CRC Press. 1995

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans: