Basics of pharmacology genetics

Module of Individual Educational Trajectory 4: "Genetics technology"

not applicable

IET

History, subject and tasks of pharmacogenetics as a science, ethical, legal and social aspects of genetic tests.

how to identify high genetic risk for multifactorial diseases;

pharmacodynamic and pharmacokinetic mechanisms of the sensitivity of the individual organism to drugs.

skills to diagnose the most common form of hereditary diseases;

dependence of reactions to drugs on hereditary factors.

Ability to design experiments and conduct research on pharmacology genetics with the latest techniques.

the methods of a medication for typing, using which an individual can be attributed to a particular phenotype metabolism;

experiments as part of pharmacogenetic research.

1. History, subject and tasks of pharmacogenetics as a science.

2. Pharmacogenetic research I phase of biotransformation.

3. Pharmacogenetic research II phase of biotransformation.

4. Pharmacogenetic research transporters of medicines.

5. The clinical significance of pharmacodynamic polymorphisms.

6. Pharmacogenetics of anticoagulants.

7. Pharmacogenetics of β-adrenoblockers.

8. Pharmacogenetics ARB II.

9. Pharmacogenetics of antiplatelet agents

10. Pharmacogenetics of drugs used in rheumatology.

11. Pharmacogenetics of statins.

12. Pharmacogenetics of drugs, acting on the central nervous system.

13. Pharmacogenetics of antibiotics.

14, 15. Ethical, legal and social aspects of genetic tests.

2^nd interim control: attendance, in-class discussion, problem solving, testing