Pharmacogenomics, Clinical Pharmacology, and Orphan Drugs
A.Y. 2024/2025
Learning objectives
The course addresses and translates into pharmacology what has been learned from biochemistry to pathophysiology with the final aim to give the pharmacological basis of applied pharmacology and therapeutics. More specifically, the first part of the course is focused on clinical pharmacology from principle of general pharmacology to pharmacokinetics and pharmacodynamics of synthetic and biotechnological drugs. In the second part, the course will cover the pharmacogenomics issues of how genes affect a person's response to drugs and how an orphan drug has been developed to treat rare medical conditions.
Each topic will be discussed in terms of pathophysiology and genetics of the disease, the mechanism of action of the used drugs and their efficacy and safety profiles.
Each topic will be discussed in terms of pathophysiology and genetics of the disease, the mechanism of action of the used drugs and their efficacy and safety profiles.
Expected learning outcomes
At the end of the course, the student must be able to demonstrate that she/he has understood the pharmacological basis and the rationale for tailoring a specific drug to a specific patient and to assess the benefit/risk ratio inherent to its use.
Lesson period: Second semester
Assessment methods: Esame
Assessment result: voto verbalizzato in trentesimi
Single course
This course can be attended as a single course.
Course syllabus and organization
Single session
Responsible
Lesson period
Second semester
Course syllabus
General principles - Pharmacokinetics: drug absorption, distribution, metabolism, elimination. Membrane Transporters and Drug Response. Drug interactions. Pharmacodynamics: Molecular Mechanisms of Drug Action
Pharmacogenetics and Pharmacogenomics Importance of pharmacogenetics in drug response. Principle of pharmacogenetics. Molecular mechanisms of genetic polymorphisms. Monogenic versus multigenic pharmacogenetic traits. Pharmacogenetic phenotypes. Candidate Gene Versus Genome-Wide Approaches.
Clinical pharmacology Pharmacogenetics and pharmacogenomics in clinical practice. Cardiovascular drugs. Anticancer drugs.
Orphan drugs Rationale to design and develop a drug for an orphan disease. Basic and clinical pharmacology of an orphan drug
Pharmacogenetics and Pharmacogenomics Importance of pharmacogenetics in drug response. Principle of pharmacogenetics. Molecular mechanisms of genetic polymorphisms. Monogenic versus multigenic pharmacogenetic traits. Pharmacogenetic phenotypes. Candidate Gene Versus Genome-Wide Approaches.
Clinical pharmacology Pharmacogenetics and pharmacogenomics in clinical practice. Cardiovascular drugs. Anticancer drugs.
Orphan drugs Rationale to design and develop a drug for an orphan disease. Basic and clinical pharmacology of an orphan drug
Prerequisites for admission
not requested
Teaching methods
oral teaching with slides
Frontal lessons
Recommended frequency
Frontal lessons
Recommended frequency
Teaching Resources
· Basic and Clinical Pharmacology 15/e (LANGE Basic Science) 2021
Bertram Katzung
· Goodman & Gilman's: The Pharmacological Basis of Therapeutics, 14e 2022
Laurence L. Brunton, Björn C. Knollman
Bertram Katzung
· Goodman & Gilman's: The Pharmacological Basis of Therapeutics, 14e 2022
Laurence L. Brunton, Björn C. Knollman
Assessment methods and Criteria
Examination at once
Methods of assessing knowledge Oral examination
Vote Vote verbalized (from 1/30 to 30/30
Evaluation parameters: capability to properly organize the knowledge, critical reasoning on the topics discussed, quality of exposure
Methods of assessing knowledge Oral examination
Vote Vote verbalized (from 1/30 to 30/30
Evaluation parameters: capability to properly organize the knowledge, critical reasoning on the topics discussed, quality of exposure
Professor(s)