Title:

Medical Imaging Systems

Code:IZSL (FEKT AZSL)
Ac.Year:2019/2020
Sem:Summer
Curriculums:
ProgrammeField/
Specialization
YearDuty
BIT-2ndElective
IT-BC-3BIT-Elective
IT-BC-3BIT2ndElective
Language of Instruction:Czech
Credits:5
Completion:credit+exam (oral)
Type of
instruction:
Hour/semLecturesSeminar
Exercises
Laboratory
Exercises
Computer
Exercises
Other
Hours:3900130
 ExamsTestsExercisesLaboratoriesOther
Points:7003000
Guarantor:Schwarz Daniel, doc. Ing. , Ph.D. (DBME)
Lecturer:Drastich Aleš, Doc. Ing., CSc. (DBME)
Schwarz Daniel, doc. Ing. , Ph.D. (DBME)
Instructor:Schwarz Daniel, doc. Ing. , Ph.D. (DBME)
Faculty:Faculty of Electrical Engineering and Communication BUT
Department:Department of Biomedical Engineering FEEC BUT
 
Learning objectives:
  Introduce students with physical and technical principles the most important medical imaging systems.
Description:
  The basic theory of imaging process and general quantitative evolution of its quality. Fundamentals physical and technical aspects of structure-specific imaging systems with direct and indirect image synthesis and its performance measurement utilization.
Knowledge and skills required for the course:
  Middle school knowledge of physics, mathematics and physiology.
Learning outcomes and competencies:
  Permit students to acquire abstract about contemporary physical and technological possibilities of physical multidimensional fields quantity imaging.
Syllabus of lectures:
 The general imaging process, principles of construction: X-ray projection and reconstruction imaging systems, planar, SPECT and PET gamma imaging systems, magnetic resonance imaging systems and ultrasound imaging systems.
Syllabus of computer exercises:
 Teaching methods include lectures, computer laboratories and practical laboratories. The course is taking advantage of e-learning (Moodle) system. Syllabus of computer exercise:
  1. The human eye as an imaging system. Feature evaluation.
  2. The simulation of image presentation and image discrimination.
  3. The simulation of image distortions.
  4. The simulation of the basic image processing.
  5. The simulation of projection reconstruction process.
  6. The simulation of magnetic resonance effect.
Study literature:
 
  • Drastich, A.: Netelevizní zobrazovací systémy. Skriptum FEI VUT v Brně, 2001 (in Czech)
  • Drastich, A.: Tomografické zobrazovací systémy. Skriptum FEKT VUT v Brně, 2004 (in Czech)
  • Zuna, I., Poušek, L.: Úvod do zobrazovacích metod v lékařské diagnostice. Skriptum ČVUT Praha, 2000 (in Czech)
  • Zang-Hee, Cho., Jones, Joi, P., Singh Manbir.: Foundations of Medical Imaging. Wiley, 1993
  • Hendee, W, R., Ritenour, E,R.: Medical Imaging Physics, Wiley-Liss, 2002
  • Bushberg, J.T., Seibert, J. A., Leidhotl, E.M.jr., Boone J.M.: The Essential Physics of Medical Imaging, third edition. Wolters Kluwer - 2012. ISBN: 0781780578 (EN)
Controlled instruction:
  The specification of inspected education and a method of its implementation are provided by course warrantor upgraded order every year.
Progress assessment:
  Requirements for successful completion of the subject are specified by guarantor's regulation updated for every academic year.
Exam prerequisites:
  Active attendance at compulsory computer sessions.
 

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