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About the Course

Department Profile
Course unit title Level of course unit Course unit code Type of course unit Semester of course unit Local credit ECTS credit Syllabus
FERTILITY AND ARTIFICIAL INSEMINATION IN EQUIDEA Third cycle VDS 518 1 6.00 6.00 Print
   
Description of course unit
Prerequisites and course requisities no
Language of instruction TURKISH
Coordinator PROF. DR. ORKUN DEMİRAL
Lecturer(s) Prof. Dr. Ö. Orkun DEMİRAL / Asst.Prof. Dr. Serpil SARIOZKAN
Teaching assitant(s) no
Mode of delivery face to face
Course objective The objective of this course is to teach. factors which effects fertility, inadequency of fertility, sterility and role of artificial insemination on equine fertility.
Course description TEACHES THE REPRODUCTION, REPRODUCTIVE BIOTECHNOLOGIES AND INFERTILITY

Course contents
1 Reproductive anatomy of equidea.(stallion, he-ass)
2 Reproductive anatomy of equidea.(mare, she-ass)
3 Puberta and breeding in equidea
4 Gametogenesis and hormonal regulation in equidea.I
5 Gametogenesis and hormonal regulation in equidea.s II.
6 Semen colection and evaluation I
7 Semen colection and evaluation II
8 Semen storage and transplantation I
9 Semen storage and transplantation II
10 oestrus detection and optimal insemination time in equidea
11 oestrus synchronization in equidea
12 Infertility in equidea I
13 Infertility in equidea II
14 General subject evaluation and exam
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16
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Learning outcomes of the course unit
1 learns the reproductive anatomy in equidae
2 learns the reproductive physiology in equidae
3 learns the techniques of ovulation and oestrus synchronization in equidae
4 learns semen collection and manipulation of semen in equidae
5 learns the insemination techniques in equidae
6 learns fertility and infertility in equidae
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8
9
10

*Contribution level of the course unit to the key learning outcomes
1 To learn preclinical pharmaceutical R&D activities and methods and to manage the process,
2 Being able to use devices involved in pharmaceutical R&D activities,
3 To carry out new drug research and development studies using drug administration and research techniques,
4 Obtaining product-oriented results from pharmaceutical R&D activities,
5 Obtaining product-oriented results from pharmaceutical R&D activities,
6 Working towards the needs of human, veterinary, agricultural and environmental health pharmaceutical industry,
7 Learning chemical synthesis methods and developing products through synthesis,
8 To learn the basic principles of bioinformatics and to perform statistical analyses,
9 Obtaining pharmaceutical raw materials from herbal and other sources and converting them into formulations,
10 To be able to monitor therapeutic drugs with pharmacogenetic and pharmacokinetic analyses,
11 To learn analysis methods and method validations for banned substances,
12 To learn in vivo and in vitro methods used in neuropsychiatric diseases,
13 To be able to analyze articles and studies related to pharmaceutical R&D,
14 Being able to make scientific projects, presentations and publications,
15 To recognize the quality systems involved in the pharmaceutical R&D process,
16 To acquire a culture of teamwork in scientific studies and to be consistent in human relations,
17 Conducting work within the framework of ethical values ??and managing ethics committee application processes,
18 Ability to lead in environments that require solving unique and interdisciplinary problems
19 To be able to follow innovations in the pharmaceutical R&D process and to gain lifelong learning habits,
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45
Number of stars refer to level of contribution from 1 (the least) to 5 (the most)

Planned learning activities, teaching methods and ECTS work load
  Quantity Time (hour) Quantity*Time (hour)
Lectures (face to face teaching) 14 1 14
Study hours out of classroom (study before and after the class) 7 1 7
Homework 7 1 7
Presentation / seminar 1 7 7
Quiz 0 0 0
Preparation for midterm exams 10 1 10
Midterm exams 1 1 1
Project (term paper) 0 0 0
Laboratuar 0 0 0
Field study 0 0 0
Preparation for final exam 7 1 7
Final exam 0 0 0
Research 0 0 0
Total work load     53
ECTS     2.00

Assessment methods and criteria
Evaluation during semester Quantity Percentage
Midterm exam 1 60
Quiz 1 40
Homework 0 0
Semester total   100
Contribution ratio of evaluation during semester to success   40
Contribution ratio of final exam to success   60
General total   100

Recommended and required reading
Textbook 1-Squires E.J. (2004): Aplied Animal Endocrinology.CABI Publishing, Oxon. 2-Blanchard T.L., Varner D.D., Schumacher J., Love C.C., Brinsko S.P., Rigby S.L. (2003): Manual of Equine Reproduction. Mosby, St.Louis. 3-Ball P.J.H., Peters A.R. (2004): Reproduction in Cattle. Blackwell Publishing, Oxford. 4-Bearden H.J., Fuquay J.W., Willard S.T. (2004): Applied Animal Reproduction. Pearson Prentice Hall, New Jersey. 5-Ley W.B. (2004): Broodmare Reproduction for the Equine Practitioner. Teton NewMedia, Wyoming. 6-Mitchell J.R., Doak G. A. (2004): The Artificial Insemination and Embryo Transfer of Dairy and Beef Cattle (including information pertaining to goats, sheep, horses swine, and other animals). Pearson Prentice Hall, New Jersey. 7-Feldman E. C., Nelson R. W. (2004): Canine and Feline Endocrinology and Reproduction. Saunders, St. Louis
Additional references

Files related to the course unit