Ders Detayı
Course Description
Course | Code | Semester | T+P (Hour) | Credit | ECTS |
---|
MEDICAL IMAGING | SFZY1150170 | Fall Semester | 1+0 | 1 | 4 |
Prerequisites Courses | |
Recommended Elective Courses | |
Language of Course | Turkish |
Course Level | Second Cycle (Master's Degree) |
Course Type | Elective |
Course Coordinator | Assoc.Prof. Gülhan ERTAN AKAN |
Name of Lecturer(s) | Prof.Dr. Tuğrul ÖRMECİ |
Assistant(s) | |
Aim | This course introduces the main methods of medical imaging, namely X-ray, nuclear medicine, magnetic resonance and ultrasound. It enables students to develop an understanding of the physics principles underlying these imaging techniques and an awareness of their clinical applications. It also discusses the mathematical principle involved in image formation and processing and provides experience in their use. |
Course Content | This course contains; Introduction to medical imaging,Linear systems,Radiography,Image quality in radiography,Computerized tomography,Tomographic reconstruction,Advanced CT, image quality in CT,Magnetic resonance physics,Relaxation and signal detection in MRI,Echoes, sequences and spectroscopy in MRI imaging,Gradients and signal equations in MRI,Sampling, resolution, imaging time, noise and SNR in MRI,MRI systems and security,Advanced MRI reconstruction. |
Dersin Öğrenme Kazanımları | Teaching Methods | Assessment Methods |
Describe the physics principles underlying the operation of medical imaging equipment; | 10, 16, 6, 9 | A |
Demonstrate an understanding of and apply mathematical methods of image construction and processing; | 10, 16, 6, 9 | A |
Demonstrate an understanding of aspects of clinical applications of imaging methods; | 10, 16, 6, 9 | A |
Discuss radiation safety issues in the operation of medical imaging equipments. | 10, 16, 6, 9 | A |
Teaching Methods: | 10: Discussion Method, 16: Question - Answer Technique, 6: Experiential Learning, 9: Lecture Method |
Assessment Methods: | A: Traditional Written Exam |
Course Outline
Order | Subjects | Preliminary Work |
---|
1 | Introduction to medical imaging | Mebis Lecture Notes |
2 | Linear systems | Mebis Lecture Notes |
3 | Radiography | Mebis Lecture Notes |
4 | Image quality in radiography | Mebis Lecture Notes |
5 | Computerized tomography | Mebis Lecture Notes |
6 | Tomographic reconstruction | Mebis Lecture Notes |
7 | Advanced CT, image quality in CT | Mebis Lecture Notes |
8 | Magnetic resonance physics | Mebis Lecture Notes |
9 | Relaxation and signal detection in MRI | Mebis Lecture Notes |
10 | Echoes, sequences and spectroscopy in MRI imaging | Mebis Lecture Notes |
11 | Gradients and signal equations in MRI | Mebis Lecture Notes |
12 | Sampling, resolution, imaging time, noise and SNR in MRI | Mebis Lecture Notes |
13 | MRI systems and security | Mebis Lecture Notes |
14 | Advanced MRI reconstruction | Mebis Lecture Notes |
Resources |
Advanced Image Processing in Magnetic Resonance Imaging, Luigi Landini, Vincenzo Positano, Maria Filomena Santarelli 2005.
KHAN’S Treatment Planning in Radiation Oncology Sixth edition |
Course Contribution to Program Qualifications
Course Contribution to Program Qualifications |
No | Program Qualification | Contribution Level |
1 | 2 | 3 | 4 | 5 |
1 | Has the essential knowledge about the structure and functioning of the radiation emitting machines used in radiation oncology, nuclear medicine and radiology. | | | | | X |
2 | Able to follow and implement daily, weekly and monthly quality control programs of radiation emitting machines. | | X | | | |
3 | Able to do the acceptance and commissioning of new machines. | | | X | | |
4 | Able to the treatment planning of patients. | | | X | | |
5 | Able to be a radiation safety officer of the institute. | X | | | | |
6 | Able to participate fields research teams; individually undertake the responsibility of the work assigned and perform it independently. | | | | | |
7 | Able to evaluate all new information regarding the field and associate them based on available knowledge. | | | X | | |
8 | Uses the communication and computer technology effectively in theoretical and practical studies. | | | X | | |
9 | Able to present theoretical or research data orally or written. | | X | | | |
10 | Adheres to ethical values and behaves according to dynamics of social responsibility. | | X | | | |
11 | Able to do the planning of clinical implementation without giving harm to staff and patient. | | | X | | |
Assessment Methods
Contribution Level | Absolute Evaluation |
Rate of Midterm Exam to Success | | 50 |
Rate of Final Exam to Success | | 50 |
Total | | 100 |
ECTS / Workload Table |
Activities | Number of | Duration(Hour) | Total Workload(Hour) |
Course Hours | 14 | 1 | 14 |
Guided Problem Solving | 0 | 0 | 0 |
Resolution of Homework Problems and Submission as a Report | 2 | 20 | 40 |
Term Project | 0 | 0 | 0 |
Presentation of Project / Seminar | 0 | 0 | 0 |
Quiz | 0 | 0 | 0 |
Midterm Exam | 1 | 30 | 30 |
General Exam | 1 | 40 | 40 |
Performance Task, Maintenance Plan | 0 | 0 | 0 |
Total Workload(Hour) | 124 |
Dersin AKTS Kredisi = Toplam İş Yükü (Saat)/30*=(124/30) | 4 |
ECTS of the course: 30 hours of work is counted as 1 ECTS credit. |
Detail Informations of the Course
Course Description
Course | Code | Semester | T+P (Hour) | Credit | ECTS |
---|
MEDICAL IMAGING | SFZY1150170 | Fall Semester | 1+0 | 1 | 4 |
Prerequisites Courses | |
Recommended Elective Courses | |
Language of Course | Turkish |
Course Level | Second Cycle (Master's Degree) |
Course Type | Elective |
Course Coordinator | Assoc.Prof. Gülhan ERTAN AKAN |
Name of Lecturer(s) | Prof.Dr. Tuğrul ÖRMECİ |
Assistant(s) | |
Aim | This course introduces the main methods of medical imaging, namely X-ray, nuclear medicine, magnetic resonance and ultrasound. It enables students to develop an understanding of the physics principles underlying these imaging techniques and an awareness of their clinical applications. It also discusses the mathematical principle involved in image formation and processing and provides experience in their use. |
Course Content | This course contains; Introduction to medical imaging,Linear systems,Radiography,Image quality in radiography,Computerized tomography,Tomographic reconstruction,Advanced CT, image quality in CT,Magnetic resonance physics,Relaxation and signal detection in MRI,Echoes, sequences and spectroscopy in MRI imaging,Gradients and signal equations in MRI,Sampling, resolution, imaging time, noise and SNR in MRI,MRI systems and security,Advanced MRI reconstruction. |
Dersin Öğrenme Kazanımları | Teaching Methods | Assessment Methods |
Describe the physics principles underlying the operation of medical imaging equipment; | 10, 16, 6, 9 | A |
Demonstrate an understanding of and apply mathematical methods of image construction and processing; | 10, 16, 6, 9 | A |
Demonstrate an understanding of aspects of clinical applications of imaging methods; | 10, 16, 6, 9 | A |
Discuss radiation safety issues in the operation of medical imaging equipments. | 10, 16, 6, 9 | A |
Teaching Methods: | 10: Discussion Method, 16: Question - Answer Technique, 6: Experiential Learning, 9: Lecture Method |
Assessment Methods: | A: Traditional Written Exam |
Course Outline
Order | Subjects | Preliminary Work |
---|
1 | Introduction to medical imaging | Mebis Lecture Notes |
2 | Linear systems | Mebis Lecture Notes |
3 | Radiography | Mebis Lecture Notes |
4 | Image quality in radiography | Mebis Lecture Notes |
5 | Computerized tomography | Mebis Lecture Notes |
6 | Tomographic reconstruction | Mebis Lecture Notes |
7 | Advanced CT, image quality in CT | Mebis Lecture Notes |
8 | Magnetic resonance physics | Mebis Lecture Notes |
9 | Relaxation and signal detection in MRI | Mebis Lecture Notes |
10 | Echoes, sequences and spectroscopy in MRI imaging | Mebis Lecture Notes |
11 | Gradients and signal equations in MRI | Mebis Lecture Notes |
12 | Sampling, resolution, imaging time, noise and SNR in MRI | Mebis Lecture Notes |
13 | MRI systems and security | Mebis Lecture Notes |
14 | Advanced MRI reconstruction | Mebis Lecture Notes |
Resources |
Advanced Image Processing in Magnetic Resonance Imaging, Luigi Landini, Vincenzo Positano, Maria Filomena Santarelli 2005.
KHAN’S Treatment Planning in Radiation Oncology Sixth edition |
Course Contribution to Program Qualifications
Course Contribution to Program Qualifications |
No | Program Qualification | Contribution Level |
1 | 2 | 3 | 4 | 5 |
1 | Has the essential knowledge about the structure and functioning of the radiation emitting machines used in radiation oncology, nuclear medicine and radiology. | | | | | X |
2 | Able to follow and implement daily, weekly and monthly quality control programs of radiation emitting machines. | | X | | | |
3 | Able to do the acceptance and commissioning of new machines. | | | X | | |
4 | Able to the treatment planning of patients. | | | X | | |
5 | Able to be a radiation safety officer of the institute. | X | | | | |
6 | Able to participate fields research teams; individually undertake the responsibility of the work assigned and perform it independently. | | | | | |
7 | Able to evaluate all new information regarding the field and associate them based on available knowledge. | | | X | | |
8 | Uses the communication and computer technology effectively in theoretical and practical studies. | | | X | | |
9 | Able to present theoretical or research data orally or written. | | X | | | |
10 | Adheres to ethical values and behaves according to dynamics of social responsibility. | | X | | | |
11 | Able to do the planning of clinical implementation without giving harm to staff and patient. | | | X | | |
Assessment Methods
Contribution Level | Absolute Evaluation |
Rate of Midterm Exam to Success | | 50 |
Rate of Final Exam to Success | | 50 |
Total | | 100 |
Numerical Data
Ekleme Tarihi: 26/11/2023 - 23:51Son Güncelleme Tarihi: 26/11/2023 - 23:51
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