Studies > Instruments and devices for biomedical diagnostics (176 – Sensor and diagnostic electronic systems)

Instruments and devices for biomedical diagnostics (176 – Sensor and diagnostic electronic systems)

Тип: Нормативний

Кафедра: physical and biomedical electronics

Навчальний план

СеместрКредитиЗвітність
106Іспит

Лекції

СеместрК-сть годинЛекторГрупа(и)
1032доцент Kukharskyy I. Y.ФеMм-11, ФеMм-12

Лабораторні

СеместрК-сть годинГрупаВикладач(і)
1032ФеMм-11ст. наук. співробітник Voronyak M. I., доцент Kukharskyy I. Y.
ФеMм-12ст. наук. співробітник Voronyak M. I., ст. наук. співробітник Voronyak M. I.

Опис навчальної дисципліни

The discipline is designed to provide students with the necessary knowledge required to understand the principles of medical diagnostic equipment for the purpose of its development and maintenance. In particular, the physical basis and principle of operation of CT, MRI, PET, ultrasound, clinical diagnostics and artifacts that may occur during the operation of this equipment are considered.

The purpose of studying the regulatory discipline “Biomedical Diagnostic Devices and Devices” is to provide students with knowledge and form their understanding of modern medical equipment, directions of its development, maintenance and inspection; to create an understanding of the types of medical equipment, general principles of functioning as intended and maintenance; mastering the methodology for obtaining diagnostically important information, interference and artifacts that distort the information received.

Рекомендована література

  • 1. Zlepko SM, Koval LG, Gavrilova NM et al. Medical equipment for special purposes. – Vinnytsia: VNTU, 2010. 160 p.
  • 2. Kisil T.Y., Trembovetska R.V., Tychkov V.V. Physical bases of reliability of medical devices and systems: lecture notes for students of all forms of study of instrumentation specialties: Cherkasy State Technical University, 2016 – 55 p.
  • 3. Tumanska NV, Barska KS, Skrynchenko SV, Kichangina TM Radiological research methods: a textbook – Zaporizhzhia: [ZSMU], 2017. – 82 p.
  • 4. Seeram Euclid, Computed Tomography: Physics and Technology – John Wiley & Sons Ltd, 2022. – 157 p.
  • 5. Brown R. W., Cheng Yu-Ch. N., Haacke E. M., Thompson M. R., Venkatesan R. Magnetic Resonance Imaging: Physical Principles and Sequence Design – John Wiley & Sons, Inc., Hoboken, New Jersey, 2014. – 978 p.
  • 6. Gopal B. Saha, Physics and Radiobiology of Nuclear Medicine – Springer Science+Business Media New York, 2013. – 362 p.
  • 7. Barannik E.A., Girnyk S.A., Tovstyak V.V. Ultrasound Doppler methods of medical diagnostics. Kharkiv: V. N. Karazin Kharkiv National University. 2006. – 20 с.
  • 8. Yavorsky B.I., Rafa T.M. Methods and means of computerized reconstructive tomography. – Ternopil: TNTU, 2010. – 98 p.
  • 9. Campbell J. Stewart, Mead M. Nathaniel, Human Medical Thermography – CRC Press is an imprint of Taylor & Francis Group, LLC, 2023. – 250 p.
  • 10. Lapovets LE, Lebed GB, Yastremska OO et al. Clinical laboratory diagnostics: textbook / edited by Lapovets LE. K.: VSV “Medicine”, 2019. 472 с.
  • 11. Bordun O.M., Voroniak M.I., Kukharskyi I.I., Medvid I.I., Ptashnyk V.V. Methods and devices of medical diagnostics. Laboratory workshop. – Lviv: Ivan Franko National University of Lviv, 2021. – 103 p.
  • 12. Irede, E.L., Aworinde, O.R., Lekan, O.K. et al. Medical imaging: A Critical Review on X-ray Imaging for the Detection of Infection. Biomedical Materials & Devices (2024). https://doi.org/10.1007/s44174-024-00212-1

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