Medical Biochemistry

Title	% from total grade	Grade
1. Individual work	-	-
Study course includes 238 hours of independent work, 22 of those are going to be in the form of organized work for preparation of presentations. Other 216 hours include the following: • independent study of sources provided in e-studies (books, review articles); • prior preparation of homework given in e-studies (multiple tasks representing the main concept of the colloquium) for each practical class and covering topics from previous lectures; • completing on-line tests in e-studies prepared for each practical class for self-control; • preparation of practical work reports; • use of ones own knowledge in resolving cases (list of clinical tasks can be found on e-studies); • analysis of scientific publications; • individual preparation for colloquiums and exam; • voluntary research work. 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.

Title	% from total grade	Grade
1. Examination	-	-
The protocol of laboratory work includes justification of the results obtained, interpretation of the results in the clinical aspect, answers to an additional individual question related to the topic Colloquium include detailed multiple choice questions that require specific theoretical and practical knowledge; various assignments assessing students’ understanding of biochemical processes and their regulation; clinical tasks estimating the ability to use the acquired knowledge by analyzing simplified clinical tasks. Examination (final assessment) includes general multiple choice questions on all topics covered during the study course; various written assignments requiring detailed knowledge of the main digestive and metabolic processes; oral questions which are designed to evaluate students’ general understanding of the relationship between biochemical processes that provide homeostasis in the body and potential dismetabolism or related pathologies. The final grade in study course Medical Biochemistry will be cumulative assessment of interim (50%) and end-of-course (50%) examinations. During the study course there will be 4 Interim examinations – colloquiums. Grade of colloquiums will be cumulative assessment of: • actual results of colloquium (85%); • average results of the mandatory quizzes held after each seminar (15%). For successful preparation for seminars bonus points to the respective colloquium can be gained. If quiz before seminar is filled out with ≥ 70% correct answers, student earns additional 1% to the colloquium grade. To gain access to Interim examinations: • all corresponding E-protocols must be passed (≥ 85% correct answers); • all quizzes after seminars must be held; • for first colloquium (Semester 1) additionally Test "Macromolecules and reaction mechanisms" must be passed. • for fourth colloquium (Semester 2) additionally Presentation "Novelty of the year in biochemistry" must be made. After successful interim examinations one written final exam will be held.

Organic Compounds. Functional Groups and Isomers.

Functional groups, isomers, basic organic compounds.

Functional groups, isomers, basic organic compounds.

Functional groups, isomers, basic organic compounds.

General properties of functional groups. Reaction types (Oxidation – Reduction; Condensation and Hydrolysis; SN1, SN2, E1, E2).

Functional groups, reaction mechanisms (oxidation – reduction; condensation, hydrolysis; SN, E mechanisms). Chemical bonds.

Functional groups, reaction mechanisms (oxidation – reduction; condensation, hydrolysis; SN, E mechanisms). Chemical bonds.

Functional groups, reaction mechanisms (oxidation – reduction; condensation, hydrolysis; SN, E mechanisms). Chemical bonds.

Carbohydrates. Structure. Properties.

Reducing properties of sugars.

Reducing properties of sugars.

Structure, optical and structural isomers, mono-, di-, poli-saccharides.

Structure, optical and structural isomers, mono-, di-, poli-saccharides.

Structure, optical and structural isomers, mono-, di-, poli-saccharides.

Fats. Structures. Properties.

Amino acids and Proteins. Structure. Properties.

Denaturation of proteins.

Denaturation of proteins.

Lipids. Structures. Properties. Amino acids, proteins, structures. Intermolecular forces.

Lipids. Structures. Properties. Amino acids, proteins, structures. Intermolecular forces.

Lipids. Structures. Properties. Amino acids, proteins, structures. Intermolecular forces.

Enzymes, enzyme classes, enzyme specificities.

Influence of temperature and pH on enzyme activity.

Influence of temperature and pH on enzyme activity.

Test: Macromolecules and reaction mechanisms. / Recognizing and describing enzyme classes.

Test: Macromolecules and reaction mechanisms. / Recognizing and describing enzyme classes.

Test: Macromolecules and reaction mechanisms. / Recognizing and describing enzyme classes.

Enzyme activation and inhibition mechanisms.

Specificity of enzymes.

Specificity of enzymes.

Enzyme activation and inhibition mechanisms, their use in medicine.

Enzyme activation and inhibition mechanisms, their use in medicine.

Enzyme activation and inhibition mechanisms, their use in medicine.

Regulation of Enzyme activity in metabolic pathways, vitamins as biological catalysts.

Activation and inhibition of salivary amylase, changes in amyloclastic force.

Activation and inhibition of salivary amylase, changes in amyloclastic force.

General metabolic regulation and vitamin derived cofactors.

General metabolic regulation and vitamin derived cofactors.

General metabolic regulation and vitamin derived cofactors.

Digestion and absorption of carbohydrates and proteins.

Analysis of glucosidases in digestive juices.

Analysis of glucosidases in digestive juices.

Hydrolysis of nutrients, peptide chain cleavage.

Hydrolysis of nutrients, peptide chain cleavage.

Hydrolysis of nutrients, peptide chain cleavage.

Digestion and absorption of lipids, synthesis and functions of bile acids/salts.

Functions of the lipase and bile, structure of bile acids.

Functions of the lipase and bile, structure of bile acids.

Hydrolysis of nutrients, diseases related to digestion.

Hydrolysis of nutrients, diseases related to digestion.

Hydrolysis of nutrients, diseases related to digestion.

Colloquium I.

Colloquium I.

Colloquium I.

Glycolysis

Regulation of glycolysis, differences in various tissues

Regulation of glycolysis, differences in various tissues

Regulation of glycolysis, differences in various tissues

Oxidative decarboxylation. The Citric Acid (Tricarboxylic acid, Krebs) Cycle.

Determination of succinate dehydrogenase.

Determination of succinate dehydrogenase.

Anabolic role of CAC. Calculations of acquired energy.

Anabolic role of CAC. Calculations of acquired energy.

Anabolic role of CAC. Calculations of acquired energy.

Bioenergetics, role of ATP in human metabolism. Oxidative stress.

Determination of antioxidant enzymes (catalase, peroxidase).

Determination of antioxidant enzymes (catalase, peroxidase).

Oxidative stress. Activators and inhibitors of ETC.

Oxidative stress. Activators and inhibitors of ETC.

Oxidative stress. Activators and inhibitors of ETC.

Anaerobic glycolysis, buffer systems, gluconeogenesis, cori cycle.

Determination of pyruvate, lactate.

Determination of pyruvate, lactate.

Lactic acidosis - symptoms, causes and treatments.

Lactic acidosis - symptoms, causes and treatments.

Lactic acidosis - symptoms, causes and treatments.

Malate-aspartate shuttle. Glycerol-3P shuttle. Pentose Phosphate Pathway. Fructose metabolism.

Metabolism of glycogen and galactose. Blood glucose homeostasis.

Oxidation of carbohydrates. Dismetabolism.

Oxidation of carbohydrates. Dismetabolism.

Oxidation of carbohydrates. Dismetabolism.

Storage of carbohydrates. Dismetabolism.

Storage of carbohydrates. Dismetabolism.

Storage of carbohydrates. Dismetabolism.

Colloquium II.

Colloquium II.

Colloquium II.

Transport and storage of lipids. Biosynthesis of cholesterol, functions.

Lipoproteins (HDL, LDL), Cholesterol, relation to high CH diet, hypercholesterolaemia.

Lipoproteins (HDL, LDL), Cholesterol, relation to high CH diet, hypercholesterolaemia.

Lipoproteins (HDL, LDL), Cholesterol, relation to high CH diet, hypercholesterolaemia.

Fatty Acid Catabolism, Ketogenesis

Energy in lipid metabolism – calculations. Carnitine deficiency, ketoacidosis.

Energy in lipid metabolism – calculations. Carnitine deficiency, ketoacidosis.

Energy in lipid metabolism – calculations. Carnitine deficiency, ketoacidosis.

Lipid biosynthesis (Fatty acids, TAGs and membrane Phospholipids).

Lipid biosynthesis - calculations, related pathologies.

Lipid biosynthesis - calculations, related pathologies.

Lipid biosynthesis - calculations, related pathologies.

Protein catabolism, amino acid oxidation and the production of urea.

Transamination, deamination, role in various tissues. Importance of clinical biomarkers (ALT and AST).

Transamination, deamination, role in various tissues. Importance of clinical biomarkers (ALT and AST).

Transamination, deamination, role in various tissues. Importance of clinical biomarkers (ALT and AST).

Biosynthesis of amino acids, their derivates – biogenic amines, creatine, glutathione. Biosynthesis and degradation of purines, pyrimidines, heme.

The diversity of N-containing compounds and their importance in the human body. Biomarkers of nitrogen metabolism in the blood and urine.

The diversity of N-containing compounds and their importance in the human body. Biomarkers of nitrogen metabolism in the blood and urine.

The diversity of N-containing compounds and their importance in the human body. Biomarkers of nitrogen metabolism in the blood and urine.

Hormones – classification and characteristics based on structure, general action mechanisms.

Hormonal regulation (insulin, glucagon) of metabolism in absorptive/postabsorptive periods.

Hormonal regulation (insulin, glucagon) of metabolism in absorptive/postabsorptive periods.

Hormonal regulation (insulin, glucagon) of metabolism in absorptive/postabsorptive periods.

The diversity of N-containing compounds and their importance in the human body. Biomarkers of nitrogen metabolism in the blood and urine.

The diversity of N-containing compounds and their importance in the human body. Biomarkers of nitrogen metabolism in the blood and urine.

The diversity of N-containing compounds and their importance in the human body. Biomarkers of nitrogen metabolism in the blood and urine.

Colloquium III.

Colloquium III.

Colloquium III.

Liver metabolism.

The role of liver in detoxification. Enzymes in diagnostics (e.g. ALT, AST, Alkaline phosphatase).

The role of liver in detoxification. Enzymes in diagnostics (e.g. ALT, AST, Alkaline phosphatase).

The role of liver in detoxification. Enzymes in diagnostics (e.g. ALT, AST, Alkaline phosphatase).

Obesity, body weight regulation.

Factors related to increased risk of obesity.

Factors related to increased risk of obesity.

Factors related to increased risk of obesity.

Fuel metabolism during exercise.

Aspects that determine the use of different energy systems. Heath benefits provided by regular physical activity.

Aspects that determine the use of different energy systems. Heath benefits provided by regular physical activity.

Aspects that determine the use of different energy systems. Heath benefits provided by regular physical activity.

Can we "run away" from Metabolic Syndrome?

Metabolic syndrome and type II diabetes.

Metabolic syndrome and type II diabetes.

Metabolic syndrome and type II diabetes.

Metabolic aspects of oncological disease.

Big data analysis with R.

Big data analysis with R.

Big data analysis with R.

Colloquium IV.

Colloquium IV.

Colloquium IV.

A general overview of enzymes and digestion.

A general overview of enzymes and digestion.

A general overview of enzymes and digestion.

General overview of carbohydrate metabolism.

General overview of carbohydrate metabolism.

General overview of carbohydrate metabolism.

General overview of protein and lipid metabolism.

General overview of protein and lipid metabolism.

General overview of protein and lipid metabolism.