Faculty of Engineering and Computer Science

Faculty of Engineering and Computer Science
Biomedical Engineering
BME 407 - Artificial Organs and Life Support Systems
COURSE INTRODUCTION AND APPLICATION INFORMATION
Course Name
Code
Semester
Theory
Application/Laboratory
Local
(hour/week)
(hour/week)
Credits
3
0
3
ECTS
Artificial Organs and Life Support
BME 407
Fall/Spring
5
Systems
Prerequisites
None
Course Language
English
Course Type
Elective
Course Level
First Cycle
* Doç. Dr. Devrim Ünay
Course Coordinator
Course Lecturer(s)
-
Course Assistants
-
Course Objectives
The objective of this course is to familiarize students with tissue engineering and artificial
organs. The course covers basic techniques of of molecular biology, forces applied on the
cells, the behavior of the cells. The course will continue with an introduction to the tissue
engineering and the methods used in tissue engineering. Finally, the students will be
introduced to artificial organs, their development and applications before finalizing with
ethics of the use of artificial organs in medicine.
Course Learning Outcomes
The students who succeeded in this course;
* define the basic terminology related to tissue engineering and genetic engineering,
* explain fundamental principles of mass transport and hydrodynamics,
* discuss the cellular behavior, migration and adhesion,
* recognize various biomaterials used in development of artificial organs,
* define the working principles of artificial organs,
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* explain the basic principles of biomimetics,
* discuss the methods used in tissue engineering.
Course Content
Introduction to artificial organs, basic principles of mass transfer and fluidics, chemical
reactions in biological system, recombinant DNA technology, biomaterials, basic principles
of design of artificial organs (biomimetics), applications of artificial organs.
WEEKLY SUBJECTS AND RELATED PREPARATION STUDIES
Week
Subjects
Related Preparation
1
Basic Principles of Molecular Biology
Joseph D. Bronzino (Editor), Tissue
Engineering and Artificial Organs (The
Biomedical Engineering Handbook),
CRC; 3rd edition (May 1, 2006). Chapter
1
2
Recombinant DNA Technology
Joseph D. Bronzino (Editor), Tissue
Engineering and Artificial Organs (The
Biomedical Engineering Handbook),
CRC; 3rd edition (May 1, 2006). Chapter
3
3
Mass Transport and Hydrodynamics
Joseph D. Bronzino (Editor), Tissue
Engineering and Artificial Organs (The
Biomedical Engineering Handbook),
CRC; 3rd edition (May 1, 2006). Chapter
7
4
Fundamentals of Stem Cell Tissue Engineering
Joseph D. Bronzino (Editor), Tissue
Engineering and Artificial Organs (The
Biomedical Engineering Handbook),
CRC; 3rd edition (May 1, 2006). Chapter
30
5
Growth Factors
Joseph D. Bronzino (Editor), Tissue
Engineering and Artificial Organs (The
Biomedical Engineering Handbook),
CRC; 3rd edition (May 1, 2006). Chapter
31
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6
Extracellular Matrix
Joseph D. Bronzino (Editor), Tissue
Engineering and Artificial Organs (The
Biomedical Engineering Handbook),
CRC; 3rd edition (May 1, 2006). Chapter
32
7
Cell Migration and Adhesion
Joseph D. Bronzino (Editor), Tissue
Engineering and Artificial Organs (The
Biomedical Engineering Handbook),
CRC; 3rd edition (May 1, 2006). Chapter
33
8
Ara sınav / Midterm
9
Biomimetic Materials
Joseph D. Bronzino (Editor), Tissue
Engineering and Artificial Organs (The
Biomedical Engineering Handbook),
CRC; 3rd edition (May 1, 2006). Chapter
39
10
Tissue Engineering Applications
Joseph D. Bronzino (Editor), Tissue
Engineering and Artificial Organs (The
Biomedical Engineering Handbook),
CRC; 3rd edition (May 1, 2006). Chapter
50
11
Artificial Heart, Blood and Circulatory Assist Devices
Joseph D. Bronzino (Editor), Tissue
Engineering and Artificial Organs (The
Biomedical Engineering Handbook),
CRC; 3rd edition (May 1, 2006). Chapter
63
12
Artificial Lungs and Blood Exchange Devices
Joseph D. Bronzino (Editor), Tissue
Engineering and Artificial Organs (The
Biomedical Engineering Handbook),
CRC; 3rd edition (May 1, 2006). Chapter
66
13
Artificial Kidney and Pancreas
Joseph D. Bronzino (Editor), Tissue
Engineering and Artificial Organs (The
Biomedical Engineering Handbook),
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CRC; 3rd edition (May 1, 2006). Chapter
67, 71
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14
Ethics of Tissue Engineering and Artificial Organs
Joseph D. Bronzino (Editor), Tissue
Engineering and Artificial Organs (The
Biomedical Engineering Handbook),
CRC; 3rd edition (May 1, 2006). Chapter
76, 77
15
Review
16
Review of the Semester
SOURCES
Course Notes / Textbooks
Joseph D. Bronzino (Editor), Tissue Engineering and Artificial Organs (The Biomedical Engineering
Handbook), CRC; 3rd edition (May 1, 2006).
Course slides
References
Larry L. Hench (Editor), Julian R. Jones (Editor), Biomaterials, artificial organs and tissue engineering
(PBK), CRC, 2005
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EVALUATION SYSTEM
Semester Requirements
Number
Percentage of Grade
Attendance/Participation
-
-
Laboratory
-
-
Application
-
-
Field Work
-
-
Special Course Internship (Work Placement)
-
-
Quizzes/Studio Critics
2
10
Homework Assignments
5
10
Presentation/Jury
1
10
Project
1
25
Seminar/Workshop
-
-
Midterms/Oral Exams
1
20
Final/Oral Exam
1
25
Total
11
100
PERCENTAGE OF SEMESTER WORK
-
75
PERCENTAGE OF FINAL WORK
-
25
Total
0
100
COURSE CATEGORY
Course Category
Core Courses
Major Area Courses
X
Supportive Courses
Media and Managment Skills Courses
Transferable Skill Courses
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THE RELATIONSHIP BETWEEN COURSE LEARNING OUTCOMES AND PROGRAM QUALIFICATIONS
#
Program Qualifications / Outcomes
* Level of Contribution
1
1
2
3
4
To have sufficient background in Mathematics, Basic sciences and Biomedical Engineering
X
areas and to be able to use this background in the problems of the Biomedical Engineering.
2
To identify, formulate and solve Biomedical Engineering-related problems by using
X
state-of-the-art methods, techniques and equipment.
3
To analyze an Biomedical system, system components or process, and to design with realistic
X
limitations to meet the requirements using modern design techniques.
4
To choose and use the required techniques and tools for Biomedical Engineering applications;
X
to use technical symbols and drawings for communication.
5
To design and do simulation and/or experiment, collect and analyze data and interpret the
X
results.
6
To work independently and participate in multidisiplinary teams.
7
To recognize the need for lifelong learning; ability to access information, to follow developments
X
X
in science and technology, and to continue to educate him/herself.
8
To be aware of professional and ethical responsibilities. 
9
To have information about business life practices such as project management, risk
X
management, and change management; awareness of entrepreneurship, innovation, and
sustainable development
10
To have knowledge about contemporary issues and the global and societal effects of
engineering practices on health, environment, and safety; awareness of the legal consequences
X
of Biomedical Engineering solutions.
11
To communicate both in oral and written form in English at a minimum level of European
X
Language Portfolio Global Scale Level B1.
12
To use a second foreign language at intermediate level.
*1 Lowest, 2 Low, 3 Average, 4 High, 5 Highest
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5
ECTS / WORKLOAD TABLE
Activities
Number
Duration (Hours)
Total Workload
Course Hours (Including Exam Week: 16 x Total Hours)
16
3
48
Laboratory
-
-
-
Application
-
-
-
Special Course Internship (Work Placement)
-
-
-
Field Work
-
-
-
Study Hours Out of Class
16
2
32
Presentations / Seminar
1
7
7
Project
1
20
20
Homework Assignments
5
2
10
Quizzes
2
4
8
Midterms / Oral Exams
1
10
10
Final / Oral Exam
1
15
15
Total Workload
150
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