Course Detail

Course Description Course Outline Course Contribution to Program Qualifications Assessment Methods ECTS-Workload Detail Informations of the Course Numerical Data

Course Description

Course	Code	Semester	T+P (Hour)	Credit	ECTS
IMAGING TECH. & APPLICATIONS in RADIOTHERAPY I	-	Fall Semester	2+4	4	10

Course Program

Prerequisites Courses
Recommended Elective Courses

Language of Course	Turkish
Course Level	Short Cycle (Associate's Degree)
Course Type	Required
Course Coordinator
Name of Lecturer(s)	Assist.Prof. Mustafa ÇAĞLAR
Assistant(s)
Aim	To give informations about imaging devices and immobilisation devices used for radiotherapy
Course Content	This course contains; Importance of imaging in radiotherapy,Preparation before imaging in radiotherapy; whats immobilisation? Why is immobilisation done?,Overview of immobilisation devices,Important parameters during immobilisation,Working principle of conventional simulators,Working principle of BT simülatör,Application differences between conventional and BT simulators,Using contrast in BT simülatör and its importance,4D scan in BT simülatör and its importance,BT simulation and immobilisation devices used for brain, head and neck irradiations,BT simulation and immobilisation devices used for thorax irradiations,BT simulation and immobilisation devices used for abdomen region irradiations,BT simulation and immobilisation devices used for pelvis region irradiations,BT simulation and immobilisation devices used for specific treatment.

Dersin Öğrenme Kazanımları	Teaching Methods	Assessment Methods
1. Learns about imaging devices and immobilisation devices used for radiotherapy	10, 16, 19, 9	A
1.1. Knows about imaging devices	10, 19, 9	A
1.2. Knows about immobilisation devices	10, 12, 16, 19, 9	A
2. Discuss difference between conventional and BT simulators	10, 16, 19, 9	A
2.1. Knows about conventional simülatör	10, 16, 9	A
2.2. Knows about BT simülatör	10, 16, 19, 9	A
3. Observes simulation methods and immobilisation devices used for different anatomic region irradiations.	10, 16, 19, 9	A
3.1. Implements BT simulation and immobilisation devices for Brain , head and neck irradiation.	16, 6, 8, 9	A
3.2. Implements BT simulation and immobilisation devices for thorax irradiation.	6, 8, 9	A
3.3. Implements BT simulation and immobilisation devices for abdomen head and neck irradiation	16, 6, 8, 9	A
3.4. Implements BT simulation and immobilisation devices for spesific treatment.	10, 16, 6, 8, 9	A
1.3. Carries out applications with these devices	10, 16, 19, 9	A

Teaching Methods:	10: Discussion Method, 12: Problem Solving Method, 16: Question - Answer Technique, 19: Brainstorming Technique, 6: Experiential Learning, 8: Flipped Classroom Learning, 9: Lecture Method
Assessment Methods:	A: Traditional Written Exam

Course Outline

Order	Subjects	Preliminary Work
1	Importance of imaging in radiotherapy	Lecture Notes
2	Preparation before imaging in radiotherapy; whats immobilisation? Why is immobilisation done?	Lecture Notes
3	Overview of immobilisation devices	Lecture Notes
4	Important parameters during immobilisation	Lecture Notes
5	Working principle of conventional simulators	Lecture Notes
6	Working principle of BT simülatör	Lecture Notes
7	Application differences between conventional and BT simulators	Lecture Notes
8	Using contrast in BT simülatör and its importance	Lecture Notes
9	4D scan in BT simülatör and its importance	Lecture Notes
10	BT simulation and immobilisation devices used for brain, head and neck irradiations	Lecture Notes
11	BT simulation and immobilisation devices used for thorax irradiations	Lecture Notes
12	BT simulation and immobilisation devices used for abdomen region irradiations	Lecture Notes
13	BT simulation and immobilisation devices used for pelvis region irradiations	Lecture Notes
14	BT simulation and immobilisation devices used for specific treatment	Lecture Notes

Resources

Lecture notes

Introduction to Radiological Physics and Radiation Dosimetry,The Physics of Radiation Therapy 4 Faiz M. Khan

Course Contribution to Program Qualifications

Course Contribution to Program Qualifications
No	Program Qualification	Contribution Level
No	Program Qualification	1	2	3	4	5
1	Radyoterapi alanı ile ilgili temel düzeyde kuramsal ve uygulamalı bilgilere sahiptir.
2	Radyoterapi alanıyla ilgili etik ilke ve kurallara ilişkin bilgiye sahiptir.
3	Radyoterapi alanı ile ilgili temel düzeydeki kuramsal ve uygulamalı bilgileri kullanarak radyoterapide kullanılan cihaz ve ve ekipmanların mekanik kontrollerini yapar, radyoterapi uygulanacak hastaların immobilizasyon ve tedavi süreçlerinde görev alır.
4	Alanı ile ilgili sahip olduğu temel bilgi birikimini kullanarak verilen bir görevi bağımsız olarak yürütür.
5	Alanında edindiği temel düzeydeki bilgi ve becerileri eleştirel bir yaklaşımla değerlendirir; öğrenme gereksinimlerini belirler ve öğrenmesini yönlendirir.
6	Hasta ve hasta yakınları ile onların kültürel hassasiyetlerini de göz önünde bulundurarak profesyonel bir şekilde iletişim kurar.
7	Radyoterapi departmanında kalite güvence süreçlerine uygun davranır ve katılır.
8	Birey ve halk sağlığı, çevre koruma ve iş güvenliği konularında yeterli bilince sahiptir.
9	Birey olarak görev, hak ve sorumlulukları ile ilgili yasa, yönetmelik, mevzuat ve mesleki etik kurallarına uygun davranır.
10	Bir radyoterapi uygulaması için hazırlık sürecini yürütür.
11	Hasta hazırlığı ve hasta bilgilendirme aşamalarını gerçekleştirir.
12	Bir radyoterapi uygulaması için görüntüleme uygulamalarını yürütür.
13	Farklı cihazlar ile radyoterapi uygulamalarını gerçekleştirir.
14	Farklı tedavi teknikleri ile radyoterapi uygulaması gerçekleştirir.
15	Radyocerrahi uygulamaları gerçekleştirir.
16	Brakiterapi uygulamalarında görev yapar.

Assessment Methods

Contribution Level	Absolute Evaluation
Rate of Midterm Exam to Success		40
Rate of Final Exam to Success		60
Total		100

ECTS / Workload Table
Activities	Number of	Duration(Hour)	Total Workload(Hour)
Course Hours	14	6	84
Guided Problem Solving	0	0	0
Resolution of Homework Problems and Submission as a Report	3	13	39
Term Project	2	10	20
Presentation of Project / Seminar	0	0	0
Quiz	1	10	10
Midterm Exam	1	45	45
General Exam	1	60	60
Performance Task, Maintenance Plan	3	10	30
Total Workload(Hour)			288
*Dersin AKTS Kredisi = Toplam İş Yükü (Saat)/30=(288/30)**			10
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
IMAGING TECH. & APPLICATIONS in RADIOTHERAPY I	-	Fall Semester	2+4	4	10

Course Program

Prerequisites Courses
Recommended Elective Courses

Language of Course	Turkish
Course Level	Short Cycle (Associate's Degree)
Course Type	Required
Course Coordinator
Name of Lecturer(s)	Assist.Prof. Mustafa ÇAĞLAR
Assistant(s)
Aim	To give informations about imaging devices and immobilisation devices used for radiotherapy
Course Content	This course contains; Importance of imaging in radiotherapy,Preparation before imaging in radiotherapy; whats immobilisation? Why is immobilisation done?,Overview of immobilisation devices,Important parameters during immobilisation,Working principle of conventional simulators,Working principle of BT simülatör,Application differences between conventional and BT simulators,Using contrast in BT simülatör and its importance,4D scan in BT simülatör and its importance,BT simulation and immobilisation devices used for brain, head and neck irradiations,BT simulation and immobilisation devices used for thorax irradiations,BT simulation and immobilisation devices used for abdomen region irradiations,BT simulation and immobilisation devices used for pelvis region irradiations,BT simulation and immobilisation devices used for specific treatment.

Dersin Öğrenme Kazanımları	Teaching Methods	Assessment Methods
1. Learns about imaging devices and immobilisation devices used for radiotherapy	10, 16, 19, 9	A
1.1. Knows about imaging devices	10, 19, 9	A
1.2. Knows about immobilisation devices	10, 12, 16, 19, 9	A
2. Discuss difference between conventional and BT simulators	10, 16, 19, 9	A
2.1. Knows about conventional simülatör	10, 16, 9	A
2.2. Knows about BT simülatör	10, 16, 19, 9	A
3. Observes simulation methods and immobilisation devices used for different anatomic region irradiations.	10, 16, 19, 9	A
3.1. Implements BT simulation and immobilisation devices for Brain , head and neck irradiation.	16, 6, 8, 9	A
3.2. Implements BT simulation and immobilisation devices for thorax irradiation.	6, 8, 9	A
3.3. Implements BT simulation and immobilisation devices for abdomen head and neck irradiation	16, 6, 8, 9	A
3.4. Implements BT simulation and immobilisation devices for spesific treatment.	10, 16, 6, 8, 9	A
1.3. Carries out applications with these devices	10, 16, 19, 9	A

Teaching Methods:	10: Discussion Method, 12: Problem Solving Method, 16: Question - Answer Technique, 19: Brainstorming Technique, 6: Experiential Learning, 8: Flipped Classroom Learning, 9: Lecture Method
Assessment Methods:	A: Traditional Written Exam

Course Outline

Order	Subjects	Preliminary Work
1	Importance of imaging in radiotherapy	Lecture Notes
2	Preparation before imaging in radiotherapy; whats immobilisation? Why is immobilisation done?	Lecture Notes
3	Overview of immobilisation devices	Lecture Notes
4	Important parameters during immobilisation	Lecture Notes
5	Working principle of conventional simulators	Lecture Notes
6	Working principle of BT simülatör	Lecture Notes
7	Application differences between conventional and BT simulators	Lecture Notes
8	Using contrast in BT simülatör and its importance	Lecture Notes
9	4D scan in BT simülatör and its importance	Lecture Notes
10	BT simulation and immobilisation devices used for brain, head and neck irradiations	Lecture Notes
11	BT simulation and immobilisation devices used for thorax irradiations	Lecture Notes
12	BT simulation and immobilisation devices used for abdomen region irradiations	Lecture Notes
13	BT simulation and immobilisation devices used for pelvis region irradiations	Lecture Notes
14	BT simulation and immobilisation devices used for specific treatment	Lecture Notes

Resources

Lecture notes

Introduction to Radiological Physics and Radiation Dosimetry,The Physics of Radiation Therapy 4 Faiz M. Khan

Course Contribution to Program Qualifications

Course Contribution to Program Qualifications
No	Program Qualification	Contribution Level
No	Program Qualification	1	2	3	4	5
1	Radyoterapi alanı ile ilgili temel düzeyde kuramsal ve uygulamalı bilgilere sahiptir.
2	Radyoterapi alanıyla ilgili etik ilke ve kurallara ilişkin bilgiye sahiptir.
3	Radyoterapi alanı ile ilgili temel düzeydeki kuramsal ve uygulamalı bilgileri kullanarak radyoterapide kullanılan cihaz ve ve ekipmanların mekanik kontrollerini yapar, radyoterapi uygulanacak hastaların immobilizasyon ve tedavi süreçlerinde görev alır.
4	Alanı ile ilgili sahip olduğu temel bilgi birikimini kullanarak verilen bir görevi bağımsız olarak yürütür.
5	Alanında edindiği temel düzeydeki bilgi ve becerileri eleştirel bir yaklaşımla değerlendirir; öğrenme gereksinimlerini belirler ve öğrenmesini yönlendirir.
6	Hasta ve hasta yakınları ile onların kültürel hassasiyetlerini de göz önünde bulundurarak profesyonel bir şekilde iletişim kurar.
7	Radyoterapi departmanında kalite güvence süreçlerine uygun davranır ve katılır.
8	Birey ve halk sağlığı, çevre koruma ve iş güvenliği konularında yeterli bilince sahiptir.
9	Birey olarak görev, hak ve sorumlulukları ile ilgili yasa, yönetmelik, mevzuat ve mesleki etik kurallarına uygun davranır.
10	Bir radyoterapi uygulaması için hazırlık sürecini yürütür.
11	Hasta hazırlığı ve hasta bilgilendirme aşamalarını gerçekleştirir.
12	Bir radyoterapi uygulaması için görüntüleme uygulamalarını yürütür.
13	Farklı cihazlar ile radyoterapi uygulamalarını gerçekleştirir.
14	Farklı tedavi teknikleri ile radyoterapi uygulaması gerçekleştirir.
15	Radyocerrahi uygulamaları gerçekleştirir.
16	Brakiterapi uygulamalarında görev yapar.

Assessment Methods

Contribution Level	Absolute Evaluation
Rate of Midterm Exam to Success		40
Rate of Final Exam to Success		60
Total		100

Course Detail

Course Description

Course Outline

Course Contribution to Program Qualifications

Assessment Methods

Detail Informations of the Course

Course Description

Course Outline

Course Contribution to Program Qualifications

Assessment Methods

Numerical Data

Student Success

SERVICE HOURS

TUS AND DUS

QUALITY ASSURANCE

INFORMATION PACKET

IMAGES FROM THE UNIVERSITY