COURSE INTRODUCTION AND APPLICATION INFORMATION

Course Name
Clinical Clerkship I
Code
Semester
Theory
(hour/week)
Application/Lab
(hour/week)
Local Credits
ECTS
CCS 401
Fall/Spring
12
12
13
15
Prerequisites
None
Course Language
English
Course Type
Required
Course Level
First Cycle
Mode of Delivery -
Teaching Methods and Techniques of the Course
Course Coordinator -
Course Lecturer(s)
Assistant(s)
Course Objectives
Learning Outcomes The students who succeeded in this course;
  • 1. List the diagnostic tests
  • 2. Explain the reason why diagnostic tests are chosen, with relation to their features
  • 3. Choose appropriate diagnostic tests to differential diagnosis
  • 4. Interpret the results of diagnostic tests
  • 5. Drive appropriate samples and transport at optimum conditions
  • 6. Describe the analysis processes of samples
  • 7. List and define the properties of imaging techniques
  • 8. Interpret the reports of imaging techniques
  • 9. Apply risk management and list the precaution methods
  • 10. Write appropriate prescription
  • 11. Describe and apply the principles of rational drug use
  • 12. Prepare death report
  • 13. Describe the responsibilities of octors at legal cases and prepare reports proper to the protocols
  • 14. Define the concepts of hair, bone, age assignment, stain, blood, sperm etc related to autentification
  • 15. Communicate effectively with patients, patient relatives and health professionals
  • 16. Evaluuate the patient management processes with ethical and legal aspects
  • 17. Define the clinical management processes
  • 18. Manage fluid and electrolyte disorders
  • 19. Explain the physiopathology of shock and manage patients with shock
  • 20. Explain basic concepts about hemostasis, coagulation and blood transfusion and surgical practices.
Course Description This course contains designation of diagnostic tests and imaging techniques, sampling, transport and analysis processes, communication with patients, patient relatives and health professionals, clinical management processes, medicolegal principles, prescription, principles of rational drug use, risk management and clinical decision making
Related Sustainable Development Goals

 



Course Category

 Core Courses
X
Major Area Courses
Supportive Courses
Media and Managment Skills Courses
Transferable Skill Courses

 

WEEKLY SUBJECTS AND RELATED PREPARATION STUDIES

Week Subjects Required Materials
1 Introduction to the course, Diagnostic tests Referance values and physiological changes
2 Diagnostic tests 1. Jawetz Melnick&Adelbergs Medical Microbiology 27/E. Geo. Brooks, 2016 2. Laposata M. Laboratory Medicine 2nd Ed. 2014 McGraw Hill Access Medicine 3. Matthew Stephenson, Joshua Shur, John Black. How to Perform Clinical Procedures: for Medical Students and Junior Doctors, includes 2 DVDs, 2013 4. Raphael Rubin, David S. Strayer. Rubin's Pathology: Clinicopathologic Foundations of Medicine, 2014
3 Sampling, transportation and analysis 1. Jawetz Melnick&Adelbergs Medical Microbiology 27/E. Geo. Brooks, 2016 2. Laposata M. Laboratory Medicine 2nd Ed. 2014 McGraw Hill Access Medicine 3. Raphael Rubin, David S. Strayer. Rubin's Pathology: Clinicopathologic Foundations of Medicine, 2014
4 Imaging techniques Chen, Harisinghani, Wittenberg. Primer of Diagnostic Imaging, 2011
5 Written and verbal communicate with patients, patient relatives and health professionals To be announced
6 Midterm Exam Clinical management processes, medicolegal aspects Bilge, Yaşar, Adli Tıp, 2008
7 Prescription, principles of rational drug use Dr. Erick Arden Bourassa. Pharmacology for the Medical Student, 2014
8 Clinical desicion making 1. Jerome P. Kassirer, John B. Wong, Richard I. Kopelman. Learning Clinical Reasoning Second Edition. 2010 2. Jonathan Gleadle. History and Clinical Examination at a Glance, 3rd Edition, 2012
9 Risk management and Clinical desicion making Harold C. Sox, Michael C. Higgins, Douglas K. Owens. Medical Decision Making, 2nd Edition, 2013
Course Notes/Textbooks
  1. Raphael Rubin, David S. Strayer. Rubin's Pathology: Clinicopathologic Foundations of Medicine, 2014
  2. Dr. Erick Arden Bourassa. Pharmacology for the Medical Student, 2014
  3. Jawetz Melnick&Adelbergs Medical Microbiology 27/E. Geo. Brooks, 2016
  4. Chen, Harisinghani, Wittenberg. Primer of Diagnostic Imaging, 2011
  5. RH. Seller, AB. Symons, Differential Diagnosis of Common Complaints: 6th Edition 2011
  6. Harold C. Sox, Michael C. Higgins, Douglas K. Owens. Medical Decision Making, 2nd Edition, 2013
  7. Matthew Stephenson, Joshua Shur, John Black. How to Perform Clinical Procedures: for Medical Students and Junior Doctors, includes 2 DVDs, 2013
  8. Jonathan Gleadle. History and Clinical Examination at a Glance, 3rd Edition, 2012
  9. Laposata M. Laboratory Medicine 2nd Ed. 2014 McGraw Hill Access Medicine
  10. Bilge, Yaşar, Adli Tıp, 2008
  11. Jerome P. Kassirer, John B. Wong, Richard I. Kopelman. Learning Clinical Reasoning Second Edition. 2010
  12. Garden, O. James , Andrew W.  Bradbury, John L.R.  Forsythe, and Rowan W.  Parks. Principles and Practice of Surgery, Edinburgh, UK: Elsevier I Churchill Livingstone, 2012.
Suggested Readings/Materials
  1. Emery, Turnpenny, Ellard, Emery's Elements of Medical Genetics, 14e 2011
  2. Harper’s Illustrated Biochemistry, 30th Ed, Lange. Rodwell VW, Bender DA, Botham RM, Kennelly PJ, Weil PA. 2015
  3. Gray's Anatomy for Students: With STUDENT CONSULT Online Access, 3e 3rd Edition. Richard L. Drake, A. Wayne Vogl, Adam W. M. Mitchell, 2015
  4. Langman's Medical Embryology Thirteenth, North American Edition. Thomas W. Sadler, 2015
  5. Wheater's Functional Histology: A Text and Colour Atlas, 6e (FUNCTIONAL HISTOLOGY (WHEATER'S)) 6th Edition. Barbara Young, Geraldine O'Dowd, Phillip Woodford, 2014
  6. The Developing Human: Clinically Oriented Embryology, 10th Edition. Keith L. Moore, T. V. N. Persaud, Mark G. Torchia, 2016
  7. Molecular Biology of the Cell. Alberts, Johnson, Lewis, Raff., 2015

 

EVALUATION SYSTEM

Semester Activities Number Weigthing
Participation
Laboratory / Application
Field Work
Quizzes / Studio Critiques
3
15
Portfolio
Homework / Assignments
3
15
Presentation / Jury
Project
Seminar / Workshop
Oral Exam
1
10
Midterm
1
25
Final Exam
1
35
Total

Weighting of Semester Activities on the Final Grade
13
65
Weighting of End-of-Semester Activities on the Final Grade
1
35
Total

ECTS / WORKLOAD TABLE

Semester Activities Number Duration (Hours) Workload
Course Hours
(Including exam week: 9 x total hours)
9
12
108
Laboratory / Application Hours
(Including exam week: 9 x total hours)
9
12
Study Hours Out of Class
9
1
9
Field Work
Quizzes / Studio Critiques
3
1
Portfolio
Homework / Assignments
1
Presentation / Jury
Project
Seminar / Workshop
Oral Exam
1
1
Midterms
1
1
Final Exams
1
1
    Total
231

 

COURSE LEARNING OUTCOMES AND PROGRAM QUALIFICATIONS RELATIONSHIP

#
 Program Competencies/Outcomes
* Contribution Level
1
2
3
4
5
1

Explain the normal structure and functions of the human body at the molecular, cellular, tissue, organ and system levels, associate them with suggestions, practices and clinical situations (nutrition, exercise, vaccination, mental health, etc.); to protect and improve the health of individuals.

 X
2

Describe the mechanisms of diseases at the molecular, cellular, tissue, organ and system levels and make evidence-based decisions by associating them with disease findings, diagnosis and treatment approaches.

 X
3

Consider the ethical principles, scientific facts, legal regulations and the biopsychosocial and cultural characteristics of the patient in the medical decision making process. Place importance and respect the autonomy of patients and the confidentiality of patient information, within the framework of the law and the provisions of healthcare application standards.

 X
4

Prioritize patient safety to minimize malpractice by carrying out risk assessment, take the necessary precautions, perform the necessary medical practice and record them.

 X
5

Communicate healthily, openly and effectively with healthcare workers, patients and their relatives, with the communication structured on empathy and care, trust and constructiveness; while being respectful to language, belief, race and cultural characteristics.

 X
6

By bearing in mind the patients’ values, beliefs, priorities, and needs; provide evidence-based options and include them in the decision making process.

 X
7

Preserve our planet’s resources and consider its effects on the public and individual’s health, advocate to disseminate healthy lifestyle behaviors and modify factors that affect health adversely.

 X
8

Reach current, valid and reliable information effectively using technology. Critically evaluate this information for solving problems in an evidence-based medical decision-making process, bearing in mind prevention, diagnosis, and management of diseases.

 X
9

Identify problems, create hypotheses, conduct research and employ teamwork to analyze results for generation and dissemination of health-related scientific knowledge.

 X
10

By taking feedback and evaluating their performance, determine the areas and options for improvement and implement them within a plan.

 X
11

Care for their own personal health, safety and appearance, take the necessary precautions in order to set an example for their colleagues and society.

 X
12

Continuously renew themselves in their medical knowledge by always bearing in mind their commitment to lifelong learning principles.

 X
13

Using various communication tools, share their professionally gained knowledge in the field of healthcare, opinions, experiences, and evaluations with institutions, colleagues and the public.  Advocate for healthcare and contribute to developing policies to protect and improve it.

 X

*1 Lowest, 2 Low, 3 Average, 4 High, 5 Highest