Course Details

HUMAN DRUG METABOLISM

BENG626

Course Information

Semester	Course Unit Code	Course Unit Title	T+P+L	Credit	Number of ECTS Credits
4	BENG626	HUMAN DRUG METABOLISM	3+0+0	3	7,5

Course Details

Language of Instruction	English
Level of Course Unit	Master's Degree
Department / Program	BIOENGINEERING
Type of Program	Formal Education
Type of Course Unit	Elective
Course Delivery Method	Face To Face
Objectives of the Course	Defining the drug metabolism and action in human. Realizing why drug causes adverse effects on human. Comprehending the importance of drug metabolism in drug development.
Course Content	Drug metabolism is how organisms break down drugs. The course begins with basic concepts such as clearance, bioavailability and biotransformation. Information on how cytochrome P450s function and how they are modulated at the sub-cellular level are examined in detail. Recent advances in phase II metabolizing systems are covered, including glucuronidation and sulphation, along with the leading drug transporters. Progress of personalized medicine from concepts towards practical is included. The final focus on how and why drugs injure us, both in predictable and unpredictable ways.
Course Methods and Techniques	The course on Drug Metabolism employs a combination of interactive lectures, case-based learning, and student-led seminars to ensure deep understanding of drug clearance, bioavailability, and biotransformation. Lectures are used to establish foundational knowledge, while group discussions and real-world case studies foster critical thinking about cytochrome P450 function and modulation at the sub-cellular level. Practical workshops focus on interpreting current research on phase II metabolism (e.g., glucuronidation and sulphation) and drug transporters. Students engage in literature reviews and oral presentations to explore the evolution of personalized medicine and drug toxicity. Emphasis is placed on evidence-based learning, with continuous feedback and opportunities for peer and instructor interaction to refine analytical and communication skills.
Prerequisites and co-requisities	None
Course Coordinator	None
Name of Lecturers	Asist Prof.Dr. EMEL BAŞAK GENCER AKÇOK
Assistants	None
Work Placement(s)	No

Recommended or Required Reading

Resources	1. "Drug Metabolism: Chemical and Enzymatic Aspects" Authors: Jack P. Uetrecht & William Trager 2. "Principles of Drug Metabolism" (Volume 1 & 2) Editors: Bernard Testa & Peter Jenner

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Course Category

Science

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Planned Learning Activities and Teaching Methods

Activities are given in detail in the section of "Assessment Methods and Criteria" and "Workload Calculation"

Assessment Methods and Criteria

In-Term Studies	Quantity	Percentage
Yarıyıl İçi Çalışmalarının Başarı Notunun Katkısı	1	% 25
Ödev	5	% 20
Proje/Çizim	1	% 20
Final examination	1	% 35
Total	8	% 100

ECTS Allocated Based on Student Workload

Activities	Quantity	Duration	Total Work Load
Ev Ödevi	5	4	20
Sunum için Hazırlık	1	6	6
Sunum	1	2	2
Proje	1	15	15
Araştırma	14	2	28
Kişisel Çalışma	14	3	42
Ders dışı çalışma	14	2	28
Yüz Yüze Ders	14	3	42
Final Sınavı	1	15	15
Total Work Load			Number of ECTS Credits 7,5 198

Course Learning Outcomes: Upon the successful completion of this course, students will be able to:

No	Learning Outcomes
1	Recognize the identity, distribution, regulation of major drug metabolizing enzymes.
2	Describe the advances in the scientific field of drug metabolism and its clinical impact.
3	Explain scientific and regulatory expectations concerning drug metabolism and transport studies and the impact in accelerating drug development.
4	Analyze the relationship between drug metabolism and personalized medicine.
5	List recent developments in drug discovery, genomics, and stem cell technologies.

Weekly Detailed Course Contents

Week	Topics	Study Materials	Materials
1	Introduction to Drug Metabolism
2	Clearance and Bioavailability
3	Enzymes in Drug Metabolism – General Principles
4	Cytochrome P450 Enzyme System – Structure and Function
5	Regulation and Modulation of CYP450s
6	Phase II Metabolism – Glucuronidation
7	Phase II Metabolism – Sulfation, Acetylation, Methylation
8	Other Phase II Reactions and Novel Pathways
9	Transporters in Drug Disposition
10	Drug-Drug Interactions and Enzyme Inhibition
11	Pharmacogenetics and Personalized Medicine
12	Drug Metabolism and Toxicity – Mechanisms
13	Experimental Approaches to Study Drug Metabolism
14	Current Trends and Case Studies in Drug Metabolism

Contribution of Learning Outcomes to Programme Outcomes

	P1	P2	P3	P4	P5	P6	P7	P8	P10	P12
C1	5	5	3	5	1	4	4	1	5	5
C2	5	5	3	5	1	4	4	1	5	5
C3	5	5	3	5	1	4	4	1	5	5
C4	5	5	3	5	1	4	4	1	5	5
C5	5	5	3	5	1	4	4	1	5	5

Contribution: 1: Very Slight 2:Slight 3:Moderate 4:Significant 5:Very Significant

https://sis.agu.edu.tr/oibs/bologna/progCourseDetails.aspx?curCourse=78007&lang=en

Return to Classes

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C3	5	5	3	5	1	4	4	1	5	5
C4	5	5	3	5	1	4	4	1	5	5
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	P1	P2	P3	P4	P5	P6	P7	P8	P10	P12
C1	5	5	3	5	1	4	4	1	5	5
C2	5	5	3	5	1	4	4	1	5	5
C3	5	5	3	5	1	4	4	1	5	5
C4	5	5	3	5	1	4	4	1	5	5
C5	5	5	3	5	1	4	4	1	5	5