Explaining the effects of general mechanical laws on biological structures and teaching the basic biomechanical properties of musculoskeletal structures in human.
Prerequisite(s)
-
Corequisite(s)
-
Special Requisite(s)
-
Instructor(s)
Professor N. Ekin AKALAN
Course Assistant(s)
Schedule
Friday, 11.00-12.45, Şirinevler Campus C Block
Office Hour(s)
Friday, 12.45-13.15, Şirinevler Campus C Block
Teaching Methods and Techniques
Lecture, Question and Answer, Discussion
Principle Sources
N.Ekin Aklan Temel kinezyo-mekanik klinik örnekli anlatım Margareta Nordin, Victor H. Frankel Basic Biomechanics of the Musculoskeletal System.
Other Sources
-
Course Schedules
Week
Contents
Learning Methods
1. Week
Definition and basic principles of biomechanics
Interactive theoretical course
2. Week
Definition and basic principles of biomechanics
Interactive theoretical course
3. Week
Ankle Joint Biomechanics
Interactive theoretical course
4. Week
Knee Joint Biomechanics I
Interactive theoretical course
5. Week
Knee Joint Biomechanics II
Interactive theoretical course
6. Week
Hip Biomechanics I
Interactive theoretical course
7. Week
Midterm
8. Week
Hip Biomechanics II
Interactive theoretical course
9. Week
Shoulder Joint Biomechanics I
Interactive theoretical course
10. Week
Shoulder Joint Biomechanics II
Interactive theoretical course
11. Week
Elbow Joint Biomechanics
Interactive theoretical course
12. Week
Hand - Wrist Joint Biomechanics
Interactive theoretical course
13. Week
Biomechanics of Columna vertebralis
Interactive theoretical course
14. Week
Gait Biomechanics
Interactive theoretical course
15. Week
Fınal Exam
16. Week
Fınal Exam
17. Week
Fınal Exam
Assessments
Evaluation tools
Quantity
Weight(%)
Midterm(s)
1
30
Homework / Term Projects / Presentations
1
10
Final Exam
1
60
Program Outcomes
PO-1
1. Analyze the interactions of structures (cells, tissues, organs), organs, segments, construction body at the micro and macro level.
PO-2
2. Can measure and evaluate the human body on the basis of physical structure.
PO-3
3. Can determine the conditions that cause functional impairment, the extent of functional impairment and the effects of people on their lives.
PO-4
4. Takes an active role in consultation, patient follow-up and treatment processes in growth and developmental disorders.
PO-5
5. Takes an active role in consultation, patient follow-up and treatment of chronic progressive diseases (cancer, muscular diseases, nervous system diseases, metabolic diseases), reducing the effects of the disease (pain, functional impairment).
PO-6
6. Takes an active role in determining, predicting, preventing, following and treating the problems that come from the old age.
PO-7
7. Has an active role in hospitals, private clinics, health centers, rehabilitation centers, disabled and elderly care diseases and follow-up processes.
PO-8
8. Can act as an active role or autonomous to identify, prevent and monitor health-related risk factors.
PO-9
9. Improvement of disease areas and functional areas, improvement and improvement processes.
PO-10
10. To make it possible to evaluate, develop and improve public health.
PO-11
11. They can take an active role in project development and the related centers for the treatment of persons with disabilities, rehabilitation center, professional rehabilitation center establishment.
Learning Outcomes
LO-1
I. Learn and interpret functional motion analysis methods
LO-2
II. Learns the principles of biomechanics
LO-3
III. Interpret the effects of biomechanical principles in exercise and sports
LO-4
IV. Comes to the level that will bring the foundations of biomechanics to the consciousness of rehabilitation