Physical Fundamentals of Medical Engineering

Course: Electronics and information technology in medicine

Structural unit: Faculty of Radiophysics, Electronics and Computer Systems

Title
Physical Fundamentals of Medical Engineering
Code
ВБ.1.11
Module type
Вибіркова дисципліна для ОП
Educational cycle
First
Year of study when the component is delivered
2023/2024
Semester/trimester when the component is delivered
8 Semester
Number of ECTS credits allocated
5
Learning outcomes
Student should know the physical essentials of medical devices technical design Student should be able to estimate influence of different physical effects on medical equipment characteristics and to estimate quantitative values of these characteristics
Form of study
Full-time form
Prerequisites and co-requisites
Student should know mathematical disciplines, general physics, essentials of medical radiophysics and data analysis in the scope of bachelor program in applied physics Student should be able to solve tasks in the scope of mathematical disciplines, general physics, medical radiphysics and data analysis in the scope of bachelor program in applied physics
Course content
Physical essentials of diagnostic and other medical devices design are given. The main attention is paid to technical features of equipment construction that increase useful physical effects influence and decrease influence of non-ideality factors.
Recommended or required reading and other learning resources/tools
1 The physics of medical imaging, edited by S. Webb, IOP Publishing Ltd, 1995. - 640 p. 2 М.В. Кононов, С.П. Радченко, О.О. Судаков. Фізичні основи медичної техніки: Методичні вказівки до проведення лабораторних робіт - К. Видавничо-поліграфічний центр «Київський університет».-2004-33с 3 Azzam Taktak, Paul Ganney, David Long, Richard Axell. Clinical Engineering: A Handbook for Clinical and Biomedical Engineers 2nd Edition - Academic Press; 2nd edition (December 18, 2019) – 552 pp. 4 F. Natterer. The Mathematics of Computerized Tomography John Wiley & Sons Ltd and B G Teubner, Stuttgart 1986, 222 pp. 5 Кононов М.В., Радченко С.П., Судаков О.О., Мисник А.В. Моделювання фізичних процесів: Методичні вказівки до проведення практичних занять Київ, ВПЦ “Київський університет”, 2006, 91 сс. 6 М.В. Кононов, М.К.Новоселець, О.О. Судаков. Телемедицина: Навчальний посібник - К. Видавничо-поліграфічний центр «Київський університет».-2003 – 178 сс.
Planned learning activities and teaching methods
Lectures 56 hours, laboratory training 14 hours
Assessment methods and criteria
Semester score: Semester contains two modules. Each module has two written module tests up to 10 point each. Maximum module score 20 points each. Laboratory training is held during the semester up to 40 point in total. Maximum semester score is 80 points. Final score (final test): final written test up to 20 points. The positive grade condition is not less than 60 points in total.
Language of instruction
Ukrainian

Lecturers

This discipline is taught by the following teachers

Sergiy P. Radchenko
Department of Medical Radiophysics
Faculty of Radiophysics, Electronics and Computer Systems
Oleksandr Oleksandrovych Sudakov
Department of Medical Radiophysics
Faculty of Radiophysics, Electronics and Computer Systems