This course is designed to provide a general understanding of the multidisciplinary field of biomaterials. The course mainly deals with biomaterials, properties, biomedical applications, biocompatibility and biodegradability, toxicity of the materials as well as interactions at the interface of material and biological systems. Current applications of biomaterials will be evaluated to provide an understanding of material bulk and surface properties, degradation processes, various biological responses to the materials and the clinical context of their use. Course aıms to give fundamental information and perspective for student who might have different background.
Course Content
This course contains; Introduction to Biomaterials and Types of Biomaterials,Metalic Biomaterials,Ceramic Biomaterials,Polymeric Biomaterials and Composites,Chemical Structure of Biomaterials,Physical Structure of Biomaterials,Mechanical Properties of Biomaterials,Biomaterials Degradation ,Biomaterials Processing,Surface properties of Biomaterials,Surface properties of Biomaterials,Protein Interaction with Biomaterials,Cell Interaction with Biomaterials,Tissue Response to Biomaterials.
Dersin Öğrenme Kazanımları
Teaching Methods
Assessment Methods
1. Understand the fundamental principles of biomaterials and their properties,
10, 12, 14, 37
A, E, F
2. Classify biomaterials according to the structural properties
14
A, E, F, G
3. Understands the modern analytical techniques for characterization of biomaterials,
10, 14, 16, 9
A, E, G
4. Evaluate interactions between biomaterials and the body
10, 14, 16
A, E, F, G
5. Compare biomaterials according to the application fields and suggest biomaterials for a specific application
A: Traditional Written Exam, E: Homework, F: Project Task, G: Quiz
Course Outline
Order
Subjects
Preliminary Work
1
Introduction to Biomaterials and Types of Biomaterials
2
Metalic Biomaterials
3
Ceramic Biomaterials
4
Polymeric Biomaterials and Composites
5
Chemical Structure of Biomaterials
6
Physical Structure of Biomaterials
7
Mechanical Properties of Biomaterials
8
Biomaterials Degradation
9
Biomaterials Processing
10
Surface properties of Biomaterials
11
Surface properties of Biomaterials
12
Protein Interaction with Biomaterials
13
Cell Interaction with Biomaterials
14
Tissue Response to Biomaterials
Resources
Biomaterials, The intersection of Biology and Materials Science- J.S. Temenoff, A.G. Mikos, (4th edition)
lecture notes and presentations
Course Contribution to Program Qualifications
Course Contribution to Program Qualifications
No
Program Qualification
Contribution Level
1
2
3
4
5
1
Develop and deepen knowledge in the same or in a different field to the proficiency level based on Bachelor level qualifications.
X
2
Conceive the interdisciplinary interaction which the field is related with.
X
3
Use of theoretical and practical knowledge within the field at a proficiency level and solve the problem faced related to the field by using research methods.
X
4
Interpret the knowledge about the field by integrating the information gathered from different disciplines and formulate new knowledge.
X
5
Independently conduct studies that require proficiency in the field.
X
6
Take responsibility and develop new strategic solutions as a team member in order to solve unexpected complex problems faced within the applications in the field.
X
7
Evaluate knowledge and skills acquired at proficiency level in the field with a critical approach and direct the learning.
X
8
Investigate, improve social connections and their conducting norms with a critical view and act to change them when necessary. Communicate with peers by using a foreign language at least at a level of European Language Portfolio B2 General Level.
X
9
Define the social and environmental aspects of engineering applications.
X
10
Audit the data gathering, interpretation, implementation and announcement stages by taking into consideration the cultural, scientific, and ethic values and teach these values.
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
3
42
Guided Problem Solving
0
0
0
Resolution of Homework Problems and Submission as a Report
6
15
90
Term Project
0
0
0
Presentation of Project / Seminar
1
20
20
Quiz
10
2
20
Midterm Exam
1
20
20
General Exam
1
35
35
Performance Task, Maintenance Plan
0
0
0
Total Workload(Hour)
227
Dersin AKTS Kredisi = Toplam İş Yükü (Saat)/30*=(227/30)
8
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
INTRODUCTION to BIOMATERIALS
-
Fall Semester
3+0
3
8
Course Program
Prerequisites Courses
Recommended Elective Courses
Language of Course
English
Course Level
Second Cycle (Master's Degree)
Course Type
Elective
Course Coordinator
Prof.Dr. Yasemin YÜKSEL DURMAZ
Name of Lecturer(s)
Assist.Prof. Mehmet Hikmet ÜÇIŞIK
Assistant(s)
Aim
This course is designed to provide a general understanding of the multidisciplinary field of biomaterials. The course mainly deals with biomaterials, properties, biomedical applications, biocompatibility and biodegradability, toxicity of the materials as well as interactions at the interface of material and biological systems. Current applications of biomaterials will be evaluated to provide an understanding of material bulk and surface properties, degradation processes, various biological responses to the materials and the clinical context of their use. Course aıms to give fundamental information and perspective for student who might have different background.
Course Content
This course contains; Introduction to Biomaterials and Types of Biomaterials,Metalic Biomaterials,Ceramic Biomaterials,Polymeric Biomaterials and Composites,Chemical Structure of Biomaterials,Physical Structure of Biomaterials,Mechanical Properties of Biomaterials,Biomaterials Degradation ,Biomaterials Processing,Surface properties of Biomaterials,Surface properties of Biomaterials,Protein Interaction with Biomaterials,Cell Interaction with Biomaterials,Tissue Response to Biomaterials.
Dersin Öğrenme Kazanımları
Teaching Methods
Assessment Methods
1. Understand the fundamental principles of biomaterials and their properties,
10, 12, 14, 37
A, E, F
2. Classify biomaterials according to the structural properties
14
A, E, F, G
3. Understands the modern analytical techniques for characterization of biomaterials,
10, 14, 16, 9
A, E, G
4. Evaluate interactions between biomaterials and the body
10, 14, 16
A, E, F, G
5. Compare biomaterials according to the application fields and suggest biomaterials for a specific application
A: Traditional Written Exam, E: Homework, F: Project Task, G: Quiz
Course Outline
Order
Subjects
Preliminary Work
1
Introduction to Biomaterials and Types of Biomaterials
2
Metalic Biomaterials
3
Ceramic Biomaterials
4
Polymeric Biomaterials and Composites
5
Chemical Structure of Biomaterials
6
Physical Structure of Biomaterials
7
Mechanical Properties of Biomaterials
8
Biomaterials Degradation
9
Biomaterials Processing
10
Surface properties of Biomaterials
11
Surface properties of Biomaterials
12
Protein Interaction with Biomaterials
13
Cell Interaction with Biomaterials
14
Tissue Response to Biomaterials
Resources
Biomaterials, The intersection of Biology and Materials Science- J.S. Temenoff, A.G. Mikos, (4th edition)
lecture notes and presentations
Course Contribution to Program Qualifications
Course Contribution to Program Qualifications
No
Program Qualification
Contribution Level
1
2
3
4
5
1
Develop and deepen knowledge in the same or in a different field to the proficiency level based on Bachelor level qualifications.
X
2
Conceive the interdisciplinary interaction which the field is related with.
X
3
Use of theoretical and practical knowledge within the field at a proficiency level and solve the problem faced related to the field by using research methods.
X
4
Interpret the knowledge about the field by integrating the information gathered from different disciplines and formulate new knowledge.
X
5
Independently conduct studies that require proficiency in the field.
X
6
Take responsibility and develop new strategic solutions as a team member in order to solve unexpected complex problems faced within the applications in the field.
X
7
Evaluate knowledge and skills acquired at proficiency level in the field with a critical approach and direct the learning.
X
8
Investigate, improve social connections and their conducting norms with a critical view and act to change them when necessary. Communicate with peers by using a foreign language at least at a level of European Language Portfolio B2 General Level.
X
9
Define the social and environmental aspects of engineering applications.
X
10
Audit the data gathering, interpretation, implementation and announcement stages by taking into consideration the cultural, scientific, and ethic values and teach these values.
