.
Medical Biochemistry
Study Course Description
Course Description Statuss:Approved
Course Description Version:1.00
Study Course Accepted:26.03.2024 16:36:15
Study Course Information | |||||||||
Course Code: | CFUBK_085 | LQF level: | Level 7 | ||||||
Credit Points: | 4.67 | ECTS: | 7.00 | ||||||
Branch of Science: | Clinical Medicine; Medical Biochemistry | Target Audience: | Pharmacy | ||||||
Study Course Supervisor | |||||||||
Course Supervisor: | Ināra Nokalna | ||||||||
Study Course Implementer | |||||||||
Structural Unit: | Department of Human Physiology and Biochemistry | ||||||||
The Head of Structural Unit: | |||||||||
Contacts: | Riga, 16 Dzirciema Street, cfbkrsu[pnkts]lv, +371 67061550 | ||||||||
Study Course Planning | |||||||||
Full-Time - Semester No.1 | |||||||||
Lectures (count) | 11 | Lecture Length (academic hours) | 2 | Total Contact Hours of Lectures | 22 | ||||
Classes (count) | 12 | Class Length (academic hours) | 2 | Total Contact Hours of Classes | 24 | ||||
Total Contact Hours | 46 | ||||||||
Full-Time - Semester No.2 | |||||||||
Lectures (count) | 7 | Lecture Length (academic hours) | 2 | Total Contact Hours of Lectures | 14 | ||||
Classes (count) | 9 | Class Length (academic hours) | 2 | Total Contact Hours of Classes | 18 | ||||
Total Contact Hours | 32 | ||||||||
Part-Time - Semester No.1 | |||||||||
Lectures (count) | 7 | Lecture Length (academic hours) | 2 | Total Contact Hours of Lectures | 14 | ||||
Classes (count) | 6 | Class Length (academic hours) | 2 | Total Contact Hours of Classes | 12 | ||||
Total Contact Hours | 26 | ||||||||
Study course description | |||||||||
Preliminary Knowledge: | General and organic chemistry, biology in high school and FF II course program level. | ||||||||
Objective: | 1. To promote the acquisition of knowledge about the human body's chemical structure. 2. Learn the metabolism, the opportunities of regulation and changes in different situations. 3. Learn the possible routes of drugs, their inactivation processes. | ||||||||
Topic Layout (Full-Time) | |||||||||
No. | Topic | Type of Implementation | Number | Venue | |||||
1 | Introduction to biochemistry. Biochemistry and pharmaceuticals. Proteins | Lectures | 1.00 | auditorium | |||||
2 | Simple proteins. Compound proteins. Chromoproteins. Enzymes | Lectures | 2.00 | auditorium | |||||
3 | Enzymes | Lectures | 2.00 | auditorium | |||||
4 | Vitamins – water and fat soluble. Vitamins and coenzymes in medicine | Lectures | 1.00 | auditorium | |||||
5 | Metabolism. Central catabolic pathways. Krebs cycle ATP formation pathways. Oxidants and antioxidative system | Lectures | 3.00 | auditorium | |||||
6 | Carbohydrate metabolism | Lectures | 3.00 | auditorium | |||||
7 | Lipid metabolism | Lectures | 2.00 | auditorium | |||||
8 | Amino acid metabolism | Lectures | 3.00 | auditorium | |||||
9 | Hormonal regulation principles of metabolism. Metabolism of xenobiotics | Lectures | 1.00 | auditorium | |||||
10 | Most important functional groups in biochemistry and their properties | Classes | 1.00 | laboratory | |||||
11 | Proof reactions of amino acids. Proof reactions of amino acids. Protein quantitative determination techniques. Protein quantitative determination techniques. Chromoproteins. Hemoglobin forms of spectroscopy | Classes | 1.00 | laboratory | |||||
12 | Proof of enzyme specificity. Enzymatic reaction dependence on T ° and pH | Classes | 1.00 | laboratory | |||||
13 | Enzyme activity detection methods | Classes | 1.00 | laboratory | |||||
14 | Enzyme activators and inhibitors | Classes | 1.00 | laboratory | |||||
15 | COLLOQUIUM: Proteins. Enzymes | Classes | 1.00 | laboratory | |||||
16 | Proof of water-soluble vitamins | Classes | 1.00 | laboratory | |||||
17 | Nutrient digestive process | Classes | 1.00 | laboratory | |||||
18 | Protein, fat and carbohydrate digestion | Classes | 1.00 | laboratory | |||||
19 | COLLOQUIUM: Vitamins | Classes | 1.00 | laboratory | |||||
20 | Seminar: Bioenergy. Antioxidant system. SDH demonstration. Hydroperoxidases | Classes | 1.00 | laboratory | |||||
21 | COLLOQUIUM: Bioenergetics | Classes | 1.00 | laboratory | |||||
22 | Seminar: Glycolytic pathway of glucose metabolism. Oxidative decarboxylation of PVA. Gluconeogenesis. Seminar: Glycogen synthesis and degradation process. Non-energy pathways of glucose metabolism Lab work: Lactate proof in muscles | Classes | 2.00 | laboratory | |||||
23 | Colloquium: Glucose metabolism | Classes | 1.00 | laboratory | |||||
24 | Seminar: Triacylglycerol metabolism. Fatty acid metabolism. Ketones. Laboratory work: Demonstration of ketones | Classes | 1.00 | laboratory | |||||
25 | Seminar: Cholesterol. Synthesis of phospholipids and fats. Lab. work: Determination of cholesterol in the analysis | Classes | 1.00 | laboratory | |||||
26 | Seminar: Amino acids fund and their uasge. AA catabolism. Specific properties of amino acids | Classes | 1.00 | laboratory | |||||
27 | Blood and urine chemical composition. Creatinine and urea determination | Classes | 1.00 | laboratory | |||||
28 | COLLOQUIUM: Lipid metabolism. Amino acid metabolism | Classes | 1.00 | laboratory | |||||
29 | Hormonal regulation of metabolism. Xenobiotics metabolism | Classes | 1.00 | laboratory | |||||
Topic Layout (Part-Time) | |||||||||
No. | Topic | Type of Implementation | Number | Venue | |||||
1 | Introduction to biochemistry. Biochemistry and pharmaceuticals. Proteins | Lectures | 1.00 | auditorium | |||||
3 | Enzymes | Lectures | 1.00 | auditorium | |||||
4 | Vitamins – water and fat soluble. Vitamins and coenzymes in medicine | Lectures | 1.00 | auditorium | |||||
6 | Carbohydrate metabolism | Lectures | 1.00 | auditorium | |||||
7 | Lipid metabolism | Lectures | 1.00 | auditorium | |||||
8 | Amino acid metabolism | Lectures | 1.00 | auditorium | |||||
9 | Hormonal regulation principles of metabolism. Metabolism of xenobiotics | Lectures | 1.00 | auditorium | |||||
12 | Proof of enzyme specificity. Enzymatic reaction dependence on T ° and pH | Classes | 1.00 | laboratory | |||||
15 | COLLOQUIUM: Proteins. Enzymes | Classes | 1.00 | laboratory | |||||
22 | Seminar: Glycolytic pathway of glucose metabolism. Oxidative decarboxylation of PVA. Gluconeogenesis. Seminar: Glycogen synthesis and degradation process. Non-energy pathways of glucose metabolism Lab work: Lactate proof in muscles | Classes | 1.00 | laboratory | |||||
24 | Seminar: Triacylglycerol metabolism. Fatty acid metabolism. Ketones. Laboratory work: Demonstration of ketones | Classes | 1.00 | laboratory | |||||
26 | Seminar: Amino acids fund and their uasge. AA catabolism. Specific properties of amino acids | Classes | 1.00 | laboratory | |||||
28 | COLLOQUIUM: Lipid metabolism. Amino acid metabolism | Classes | 1.00 | laboratory | |||||
Assessment | |||||||||
Unaided Work: | Study independently the latest scientific literature and integrate it in educational material. In order to evaluate the quality of the study course as a whole, the student must fill out the study course evaluation questionnaire on the Student Portal. | ||||||||
Assessment Criteria: | 1. Participation in practical classes. 2. Participation in the oral workshops. 3. Written colloquiums. 4. Written exam. 5. Final grade - cumulative, where 70% - exam grade and 30% - colloquium grade. | ||||||||
Final Examination (Full-Time): | Exam (Written) | ||||||||
Final Examination (Part-Time): | Exam | ||||||||
Learning Outcomes | |||||||||
Knowledge: | Upon successful completion of the course the student will be able to: 1. Substantiate according biochemical processes in the normal course and anticipate possible changes to various deviations. 2. Analyse and substantiate medication effects on metabolic process, as well as predict the consequences on the body. 3. Analyse biochemically collected data during drug therapy, to adequately process them and to make consequential and reasoned conclusions. | ||||||||
Skills: | Upon completion of the study course the students will be able to: 1. Tell about the human body's molecules structure and importance. 2. Describe the enzyme activity. 3. Define the main principles of bioenergetics and metabolism, their regulation capabilities. 4. Analyse and evaluate carbohydrates, lipids and amino acid metabolic processes and its hormonal regulation. 5. Justify medication effects on metabolism in human body. | ||||||||
Competencies: | Will be able to predict and analyse the medication effects on metabolic processes, and to make consequential and reasoned conclusions by using data collected from drug therapy. | ||||||||
Bibliography | |||||||||
No. | Reference | ||||||||
Required Reading | |||||||||
1 | V. W. Rodwell, D. K. Granner, D.A. Bender, P. J. Kennelly. Harper's Illustrated Biochemistry (30th edition by Mc Graw Hill education), 2018: 820. | ||||||||
Additional Reading | |||||||||
1 | R. A. Harvey, D. R. Ferrier. Lippincott's Illustrated Reviews: Biochemistry (Lippincott's Illustrated Reviews Series), 2021: 544. | ||||||||
2 | Pub Med un citas datu bāzes. | ||||||||
3 | L. W. Janson and M. E. Tischler „The Big Picture. Medical Biochemistry” Mc Graw Hill Medical, 2012 | ||||||||
Other Information Sources | |||||||||
1 | e-studijas |