Course Name Code Semester T+U Hours Credit ECTS
Radiation Biophysics BIF 505 0 2 + 2 3 6
Precondition Courses <p>none</p>
Recommended Optional Courses
Course Language Turkish
Course Level yuksek_lisans
Course Type Optional
Course Coordinator Prof.Dr. BİRSEN AYDEMİR
Course Lecturers
Course Assistants

Doç.Dr. BİRSEN AYDEMİR, Prof Dr Haldun Şükrü Erkal, Doç. Dr. Yasemin Gündüz

Course Category Field Proper Education
Course Objective

Definition of radiation, sources of radiation on the definitions, types of radiation, scintillation systems, biophysical properties of radiation in medicine and general practice areas

Course Content

Definition of radiation, scintillation systems, diagnosis, and treatment location

# Course Learning Outcomes Teaching Methods Assessment Methods
1 To learn radiation Lecture, Question-Answer, Discussion, Drilland Practice, Demonstration, Motivations to Show, Simulation, Problem Solving, Homework,
2 To understand the radiation sources Lecture, Question-Answer, Discussion, Drilland Practice, Demonstration, Motivations to Show, Homework,
3 To define the radiation types Lecture, Question-Answer, Discussion, Drilland Practice, Demonstration, Motivations to Show, Problem Solving, Homework,
4 To learn radiation-related concepts and units Lecture, Question-Answer, Discussion, Drilland Practice, Demonstration, Simulation, Problem Solving, Homework,
5 To understand the biophysical properties of radiation Lecture, Question-Answer, Discussion, Drilland Practice, Demonstration, Simulation, Problem Solving, Homework,
6 To learn the biological effects of radiation Lecture, Question-Answer, Discussion, Demonstration, Problem Solving, Homework,
7 To learn the principles of radiation and protection Lecture, Question-Answer, Discussion, Demonstration, Problem Solving, Homework,
8 To learn the use of radiation for diagnostic purposes Lecture, Question-Answer, Discussion, Motivations to Show, Problem Solving, Homework,
9 To learn the therapeutic use of radiation Lecture, Question-Answer, Problem Solving, Homework,
10 To learn the use of radiation in vitro Lecture, Question-Answer, Discussion, Simulation, Problem Solving, Homework,
11 To learn the relationship betweenthe radiation and oxidative stress Lecture, Question-Answer, Discussion, Simulation, Problem Solving, Homework,
12 To learn the Radiation Measurement Systems Lecture, Question-Answer, Discussion, Simulation, Problem Solving, Homework,
13 To learn Radiation half-life, physical, and biological half-life Lecture, Question-Answer, Discussion, Simulation, Problem Solving, Homework,
14 To solve the applications of radiation Lecture, Question-Answer, Discussion, Drilland Practice, Demonstration, Homework,
Week Course Topics Preliminary Preparation
1 Definition of radiation text books and review
2 Radiation Sources text books and review
3 Types of radiation text books and review
4 Radiation-related concepts and units text books and review
5 Biophysical properties of radiation text books and review
6 The biological effects of radiation text books and review
7 Principles of Radiation and Protection text books and review
8 The use of radiation for diagnostic purposes text books and review
9 The therapeutic use of radiation text books and review
10 The use of radiation in vitro text books and review
11 Radiation and Oxidative Stress text books and review
12 Radiation Measurement Systems text books and review
13 Radiation half-life, physical, and biological half-life text books and review
14 Applications of radiation text books and review
Resources
Course Notes <p>Demir M, NUCLEAR MEDICINE AND CLINICAL APPLICATIONS, 2011, İstanbul<br /> &Ouml;nen S, Radiation Biophysics, İ.&Uuml;. Cerrahpaşa Medical Faculty, 1996, İstanbul</p>
Course Resources
Order Program Outcomes Level of Contribution
1 2 3 4 5
1 To understand the basic principles of biophysics and molecular biophysics according to the basic concepts of the courses taken by students under the program. X
1 To understand the basic principles of biophysics and molecular biophysics according to the basic concepts of the courses taken by students under the program. X
2 Bioenergetics, biophysical events in the cell, action potentials, synaptic transmission, signal transduction mechanisms in cells, the basic Information of the concepts, the basic concepts of bioinformatics, the basic principles of bioelectric electrical mechanisms in the heart and muscles, electroencephalography (EEG) and electromyography´s (EMG), the basic principles, to understand the physical principles of muscle-nervous system. X
2 Bioenergetics, biophysical events in the cell, action potentials, synaptic transmission, signal transduction mechanisms in cells, the basic Information of the concepts, the basic concepts of bioinformatics, the basic principles of bioelectric electrical mechanisms in the heart and muscles, electroencephalography (EEG) and electromyography´s (EMG), the basic principles, to understand the physical principles of muscle-nervous system. X
3 To understand the dynamics of the circulatory and respiratory system. X
4 Understanding the sensory system biophysics
5 Learning the radiation biophysics X
6 Molecular Biophysical methods and learning and applying the basic principles of medical imaging. X
7 Thesis stage in the project or projects in the context of learning research techniques, to write articles and conference presentations X
Evaluation System
Semester Studies Contribution Rate
1. Ara Sınav 90
1. Kısa Sınav 10
Total 100
1. Yıl İçinin Başarıya 30
1. Final 70
Total 100
ECTS - Workload Activity Quantity Time (Hours) Total Workload (Hours)
Course Duration (Including the exam week: 16x Total course hours) 16 2 32
Hours for off-the-classroom study (Pre-study, practice) 16 6 96
Final examination 1 10 10
Total Workload 138
Total Workload / 25 (Hours) 5.52
dersAKTSKredisi 6