Logo ČVUT
CZECH TECHNICAL UNIVERSITY IN PRAGUE
STUDY PLANS
2023/2024
UPOZORNĚNÍ: Jsou dostupné studijní plány pro následující akademický rok.

Introduction to Biomedical Engineering

Login to KOS for course enrollment Display time-table
Code Completion Credits Range Language
17VUBME Z 2 1P+1C Czech
Garant předmětu:
Jiří Hozman
Lecturer:
Jiří Hozman
Tutor:
Evgeniia Karnoub
Supervisor:
Department of Biomedical Technology
Synopsis:

The main goal of the course is to implement an introduction to the field of study, including the relationship between the content of biomedical engineering, the study plan, the requirements of Czech legislation and clinical practice. The partial goals are motivation for the non-medical health profession, a description of the content of studies and controlled professional practice, as well as the possibilities of other professional activities of students. The course also includes a description of the disciplines of biomedical engineering and a demonstration of selected relevant instrumentation, including a simulated ICU and artificial patients. At the end of the course, the specific role of the biomedical technician (profession) in health care will be described in connection with the legislation of the Czech Republic and international relationships and possible applications, including the role of professional societies in the Czech Republic. From the organizational point of view, the subject will be taught after 2 hours and for that reason only 7 topics of lectures and 7 topics of exercises are mentioned.

Requirements:

Assessment requirements:

Attendance at seminars is mandatory and it is possible to excuse only one absence without giving a reason. All other absences must be excused and documented. The tests may have to be replaced by another date.

Two tests will be included in the semester on the basis of lectures, on the basis of materials for exercises, on the basis of own exercises and also on the basis of compulsory literature given for this subject. One test will be in week 10 and the other in week 14. Each of these tests will consist of a written test that will contain 10 questions. These questions will be either open or ABC type, or with the image shown. The aim of the question will always be to identify the device according to various symptoms, ie description, drawing, picture, accessories, hospital situation, etc. and classify the device into one of three groups, i.e. diagnostic or therapeutic device or device in a clinical laboratory. Each question will be evaluated with a maximum of 5 points. In total, it is possible to get a maximum of 100 for both tests. The minimum requirement is then to obtain 50 points for both tests in total, with no minimum number of points set for each individual test. If you do not get the number of 50 points, you cannot get a credit.

Syllabus of lectures:

1. Course introduction, overview of issues, motivational videos, examples, requirements for completion, organization of the subject, concept and overview of laboratories

2. Position of biomedical technician, activities, background, structure of the hospital, classification of medical instrumentation (examples from practice and from laboratories)

3. Diagnostic instrumentation - part 1 (medical instrumentation - overview)

4. Diagnostic instrumentation - part 2 (imaging systems - overview)

5. Therapeutic equipment - medical equipment, physical therapy, anesthesiology equipment, radiotherapy, robotic rehabilitation

6. Instrumentation for clinical laboratory (analyzers)

7. Examples of activities from practice, position of graduates (map), examples of work and other activities of students in the field of Biomedical Engineering

Syllabus of tutorials:

1. Credit conditions, health and safety. Experimental teaching set with X-ray source, ultrasound diagnostic device, flexible endoscope, all examples of imaging systems in medicine.

2. Whole-body patient clinical simulator ECS (Emergency Care Simulator), monitor of vital functions.

3. Credit test 1, Electrocardiograph, defibrillator, pulse oximeter, tonometer for measuring blood pressure.

4. Devices to support blood circulation.

5. Dialysis machine, magnetotherapy, electrotherapy.

6. Simulators of physiological quantities and testers and analyzers of medical instrumentation.

7. Credit test No.2, name of the device, drawing, picture of the device or accessories and the task is to be included in the group.

As a special bonus, selective practice beyond the scope of compulsory participation in laboratories at companies where our graduates work will also be included.

Study Objective:

1. Ensure motivation to study relevant subjects.

2. To teach orientation within the medical devices in general.

3. Learn to recognize the basic and most common medical devices.

4. Learn the context of physical laws and basic principles of the most common medical devices.

5. Learn to describe the basic and most common implementations of medical devices.

6. Motivate and partially prepare for supervised professional practice.

In accordance with these above mentioned objectives, this course is intended only for first-year students in the field of Biomedical Engineering. The course is suitable for students who are interested in getting acquainted with the field as such, including the used instrumentation. Thus, students will better understand some contexts within the study, but they will also be better prepared for the mandatory parts of the study, such as supervised professional practice.

Study materials:

Mandatory (all items are available within the central CTU library or on the web):

[1] BRONZINO, Joseph D. a Donald R. PETERSON. The Biomedical Engineering Handbook: four volume set. Fourth edition. Boca Raton, FL: CRC Press, 2018. ISBN 978-0-429-19567-9. (or any other editions available in library)

[2] Introduction to biomedical engineering. Editor John D. ENDERLE, editor Susan M. BLANCHARD, ed. Joseph D. BRONZINO. San Diego: Academic Press, c2000. ISBN 0-12-238660-4.

[3] Experimental tasks within the environment of an ICU simulated site. 1st ed. Prague: CTU Publishing House, 2012, 111 p. [online]. 18.04.2012 [cit. 2020-06-01]

Available from: http://esf.fbmi.cvut.cz/sites/default/files/Skripta_komplet_AJ_KA02.pdf

Recommended (all items are available within the central CTU library or on the web):

[4] The Clinical and Technology Journal. [online]. 21.11.2015 [cit. 2020-06-01]. Dostupné z: http://ctj.fbmi.cvut.cz/

[5] Czech Society for Biomedical Engineering and Medical Informatics. Czech Medical Association J. E. Purkynje. [online]. 21.11.2015 [cit. 2020-06-01].

Available from z: http://www.csbmili.cz/en

[6] International Federation for Medical and Biological Engineering (IFMBE). [online]. 21.11.2015 [cit. 2020-06-01]. Available from z: http://ifmbe.org

Note:
Time-table for winter semester 2023/2024:
06:00–08:0008:00–10:0010:00–12:0012:00–14:0014:00–16:0016:00–18:0018:00–20:0020:00–22:0022:00–24:00
Mon
Tue
roomKL:A-121
Karnoub E.
10:00–11:50
EVEN WEEK

(lecture parallel1
parallel nr.1)

Kladno FBMI
Demo. lab. LPT, ZS a VP
roomKL:A-121
Karnoub E.
10:00–11:50
ODD WEEK

(lecture parallel1
parallel nr.3)

Kladno FBMI
Demo. lab. LPT, ZS a VP
Wed
roomKL:A-121
Karnoub E.
12:00–13:50
EVEN WEEK

(lecture parallel1
parallel nr.2)

Kladno FBMI
Demo. lab. LPT, ZS a VP
roomKL:B-230
Hozman J.
16:00–17:50
ODD WEEK

(lecture parallel1)
Kladno FBMI
Učebna
Thu
Fri
Time-table for summer semester 2023/2024:
Time-table is not available yet
The course is a part of the following study plans:
Data valid to 2024-03-27
Aktualizace výše uvedených informací naleznete na adrese https://bilakniha.cvut.cz/en/predmet4755406.html