The aim of this course is to informe on medical information systems and applications.
Course Content
This course contains; Relations between Medicine and medical informatics, Emerge of the medical information Technology ,Components, design and management of Medical information systems,Electronic medical records, standardization of the diagnosis and databases,Integration of medical information systems ,Hospital Information Systems and electronic documentation systems,Picture Archiving and Communication Systems,Laboratory Information Systems ,Teleradiology and Telemedicine Systems ,TeleECG and Digital Triage applications,Biomedical management systems ,Medical supply and Finance management systems ,Business intelligence systems, safety of medical records and archive management,Clinical decision support systems and ICU PDMS technology,The future of the medical information technology and assesment of digital hospitals .
Dersin Öğrenme Kazanımları
Teaching Methods
Assessment Methods
1. Having a knowledge on medical informatics concept
1.1. Knowlegde on digital hospitals and upcomign technology on medical informatics
2. The emerge of the medical informatics, design and management
3. Formats and standardization of the medical records
4. Knowledge on HIS
5. Knowledge on Radiology and laboratory software systems
6. Knowledge on TeleHealth applications
7. Knowledge on supply, finance and biomedical management software
8. Knowledge on business intelligence systems
9. Knowledge on medical decision support systems and ICU PDMS systems
Teaching Methods:
Assessment Methods:
Course Outline
Order
Subjects
Preliminary Work
1
Relations between Medicine and medical informatics, Emerge of the medical information Technology
2
Components, design and management of Medical information systems
3
Electronic medical records, standardization of the diagnosis and databases
4
Integration of medical information systems
5
Hospital Information Systems and electronic documentation systems
6
Picture Archiving and Communication Systems
7
Laboratory Information Systems
8
Teleradiology and Telemedicine Systems
9
TeleECG and Digital Triage applications
10
Biomedical management systems
11
Medical supply and Finance management systems
12
Business intelligence systems, safety of medical records and archive management
13
Clinical decision support systems and ICU PDMS technology
14
The future of the medical information technology and assesment of digital hospitals
Resources
Medical Informatics: Computer Applications in Health Care and Biomedicine, Edward H. Shortliffe, Leslie E. Perreault, Springer Science & Business Media
Medical Informatics: Computer Applications in Health Care and Biomedicine, Edward H. Shortliffe, Leslie E. Perreault, Springer Science & Business Media
Course Contribution to Program Qualifications
Course Contribution to Program Qualifications
No
Program Qualification
Contribution Level
1
2
3
4
5
1
Offer necessary applications and solution proposals in the field of
biomedical device.
X
2
Define adequate practical, theoretical and technical knowledge in suitable areas in the field of biomedical device.
X
3
Take responsibility unpredictable alone or in teams to solve complex problems in applications related to the field.
X
4
Use theoretical and practical knowledge in the field of biomedical device.
X
5
Reach information and survey resources in the field of biotechnologhy and medicine.
X
6
Perform maintenance and calibration by troubleshooting of biomedical devices.
X
7
Has an ability to design and conduct experiments, and interpret the results.
8
Demonstrate technical application skills in the medical devices.
X
9
Be able to recognize and design electric circuit systems.
X
10
Follow the developments in the field of biomedical devices, and critically evaluate the knowledge and skills acquired.
X
11
Applies quality assurance and standards by obeying occupational health safety rules in the field of biomedical device.
X
12
By acting in accordance with professional ethics, principles and values, become a model to colleagues and society.
X
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
3
42
Guided Problem Solving
14
3
42
Resolution of Homework Problems and Submission as a Report
1
3
3
Term Project
0
0
0
Presentation of Project / Seminar
1
3
3
Quiz
2
1
2
Midterm Exam
1
14
14
General Exam
1
14
14
Performance Task, Maintenance Plan
0
0
0
Total Workload(Hour)
120
Dersin AKTS Kredisi = Toplam İş Yükü (Saat)/30*=(120/30)
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 INFORMATICS
-
Fall Semester
3+0
3
4
Course Program
Prerequisites Courses
Recommended Elective Courses
Language of Course
Turkish
Course Level
Short Cycle (Associate's Degree)
Course Type
Elective
Course Coordinator
Lect. Ercüment Cenap TURAN
Name of Lecturer(s)
Lect. Hüseyin SARPKAYA
Assistant(s)
Aim
The aim of this course is to informe on medical information systems and applications.
Course Content
This course contains; Relations between Medicine and medical informatics, Emerge of the medical information Technology ,Components, design and management of Medical information systems,Electronic medical records, standardization of the diagnosis and databases,Integration of medical information systems ,Hospital Information Systems and electronic documentation systems,Picture Archiving and Communication Systems,Laboratory Information Systems ,Teleradiology and Telemedicine Systems ,TeleECG and Digital Triage applications,Biomedical management systems ,Medical supply and Finance management systems ,Business intelligence systems, safety of medical records and archive management,Clinical decision support systems and ICU PDMS technology,The future of the medical information technology and assesment of digital hospitals .
Dersin Öğrenme Kazanımları
Teaching Methods
Assessment Methods
1. Having a knowledge on medical informatics concept
1.1. Knowlegde on digital hospitals and upcomign technology on medical informatics
2. The emerge of the medical informatics, design and management
3. Formats and standardization of the medical records
4. Knowledge on HIS
5. Knowledge on Radiology and laboratory software systems
6. Knowledge on TeleHealth applications
7. Knowledge on supply, finance and biomedical management software
8. Knowledge on business intelligence systems
9. Knowledge on medical decision support systems and ICU PDMS systems
Teaching Methods:
Assessment Methods:
Course Outline
Order
Subjects
Preliminary Work
1
Relations between Medicine and medical informatics, Emerge of the medical information Technology
2
Components, design and management of Medical information systems
3
Electronic medical records, standardization of the diagnosis and databases
4
Integration of medical information systems
5
Hospital Information Systems and electronic documentation systems
6
Picture Archiving and Communication Systems
7
Laboratory Information Systems
8
Teleradiology and Telemedicine Systems
9
TeleECG and Digital Triage applications
10
Biomedical management systems
11
Medical supply and Finance management systems
12
Business intelligence systems, safety of medical records and archive management
13
Clinical decision support systems and ICU PDMS technology
14
The future of the medical information technology and assesment of digital hospitals
Resources
Medical Informatics: Computer Applications in Health Care and Biomedicine, Edward H. Shortliffe, Leslie E. Perreault, Springer Science & Business Media
Medical Informatics: Computer Applications in Health Care and Biomedicine, Edward H. Shortliffe, Leslie E. Perreault, Springer Science & Business Media
Course Contribution to Program Qualifications
Course Contribution to Program Qualifications
No
Program Qualification
Contribution Level
1
2
3
4
5
1
Offer necessary applications and solution proposals in the field of
biomedical device.
X
2
Define adequate practical, theoretical and technical knowledge in suitable areas in the field of biomedical device.
X
3
Take responsibility unpredictable alone or in teams to solve complex problems in applications related to the field.
X
4
Use theoretical and practical knowledge in the field of biomedical device.
X
5
Reach information and survey resources in the field of biotechnologhy and medicine.
X
6
Perform maintenance and calibration by troubleshooting of biomedical devices.
X
7
Has an ability to design and conduct experiments, and interpret the results.
8
Demonstrate technical application skills in the medical devices.
X
9
Be able to recognize and design electric circuit systems.
X
10
Follow the developments in the field of biomedical devices, and critically evaluate the knowledge and skills acquired.
X
11
Applies quality assurance and standards by obeying occupational health safety rules in the field of biomedical device.
X
12
By acting in accordance with professional ethics, principles and values, become a model to colleagues and society.