Medical Pharmacology
A.Y. 2025/2026
Learning objectives
The educational objectives of the course are to define and classify the targets of drug action (e.g. receptors, enzymes, ion channels, transporters), describe the different aspects of quantitative pharmacodynamics underlying their action (e.g. full agonists, partial agonists, inverse antagonists), illustrate the different biotechnological drugs (e.g. recombinant proteins, monoclonal antibodies, decoys, RNA-based), outline the different pharmacokinetic aspects underlying the absorption, distribution, metabolism and excretion of drugs, indicate the rational bases of the use of different drugs in the therapy of the main organ and system pathologies (e.g. cardiovascular diseases, respiratory diseases, neuropsychiatric diseases)
Expected learning outcomes
In line with the Dublin Descriptors, the expected learning outcomes are:
Dublin Descriptor 1: knowledge and understanding
The student must know the fundamental principles of pharmacodynamics and pharmacokinetics and understand the mechanisms of action of the main classes of drugs,
The student must understand the scientific rationale behind the development of new molecules.
Dublin Descriptor 2: ability to apply knowledge and understanding
The student will have to recognize the therapeutic effect of the mechanisms of action of drugs based on the pathogenetic and physiopathological mechanisms of diseases. The student will also have to use the tools of quantitative pharmacodynamics to predict the action of a drug, interpret the pharmacokinetic parameters and their impact on therapy.
Dublin Descriptor 3: critical and judgment skills:
The student will have to develop critical skills in the evaluation of pharmacological therapies through the integration of what has been learned in class with the use of pharmacology manuals and also through the reading of scientific data made available by international literature. The student will also have to understand the ethical implications in the use of drugs.
Dublin Descriptor 1: knowledge and understanding
The student must know the fundamental principles of pharmacodynamics and pharmacokinetics and understand the mechanisms of action of the main classes of drugs,
The student must understand the scientific rationale behind the development of new molecules.
Dublin Descriptor 2: ability to apply knowledge and understanding
The student will have to recognize the therapeutic effect of the mechanisms of action of drugs based on the pathogenetic and physiopathological mechanisms of diseases. The student will also have to use the tools of quantitative pharmacodynamics to predict the action of a drug, interpret the pharmacokinetic parameters and their impact on therapy.
Dublin Descriptor 3: critical and judgment skills:
The student will have to develop critical skills in the evaluation of pharmacological therapies through the integration of what has been learned in class with the use of pharmacology manuals and also through the reading of scientific data made available by international literature. The student will also have to understand the ethical implications in the use of drugs.
Lesson period: year
Assessment methods: Esame
Assessment result: voto verbalizzato in trentesimi
Single course
This course cannot be attended as a single course. Please check our list of single courses to find the ones available for enrolment.
Course syllabus and organization
Single session
Responsible
Lesson period
year
Course syllabus
Membrane receptors
Voltage-dependent ion channels pumps and transporters
Quantitative aspects of drug-receptor interactions
Intracellular receptors
Pharmacological control of neurotransmitter release
Enzymes as drug targets
Research and development of new drugs
Experimental models in pharmacology
Pharmacokinetics
-Drug routes of administration
-Drug absorption
-Drug distribution
-Drug metabolism
-Drug elimination
-Interactions between drugs and between drugs and food
Pharmacology of the autonomic nervous system
Pharmacology of the smooth muscle cell
Pharmacology of the cardiovascular system
Pharmacology of inflammation
Pharmacology of the respiratory system
Pharmacology of the gastro-intestinal system
Pharmacology of the central nervous system
Endocrine Pharmacology
Advanced Therapy Medicinal Proudcts, ATMP)
Voltage-dependent ion channels pumps and transporters
Quantitative aspects of drug-receptor interactions
Intracellular receptors
Pharmacological control of neurotransmitter release
Enzymes as drug targets
Research and development of new drugs
Experimental models in pharmacology
Pharmacokinetics
-Drug routes of administration
-Drug absorption
-Drug distribution
-Drug metabolism
-Drug elimination
-Interactions between drugs and between drugs and food
Pharmacology of the autonomic nervous system
Pharmacology of the smooth muscle cell
Pharmacology of the cardiovascular system
Pharmacology of inflammation
Pharmacology of the respiratory system
Pharmacology of the gastro-intestinal system
Pharmacology of the central nervous system
Endocrine Pharmacology
Advanced Therapy Medicinal Proudcts, ATMP)
Prerequisites for admission
Students must have fulfilled all the prerequisite requirements indicated in the study plan: General Pathology and Immunology, Human Molecular Genetics, Biochemistry and Fundamentals of Human Biochemistry
Teaching methods
Teachers carry out frontal lessons using PPT presentations, which are then deposited on the dedicated platform. Teaching can also make use of teaching materials (power point files and scientific articles) made available through a dedicated platform or provided directly in the classroom by teachers
Teaching Resources
Principles of Pharmacology. The Pathophysiological basis of drug therapy. Golan DE, Armstrong EJ, Armstrong AW. IV Edition Walters Kluver editor
Farmacologia generale e molecolare Clementi F. e Fumagalli G V edizione EDRA
Farmacologia generale e molecolare Clementi F. e Fumagalli G V edizione EDRA
Assessment methods and Criteria
The exam consists of an oral test that covers all the topics covered in the program. The evaluation parameters used concern the completeness of knowledge, the ability to reason critically and the appropriateness in the use of specialized vocabulary. It is possible to take an ongoing test at the end of the first part of the course (once a year), which can be accessed by all students who have never taken this test before. This test can be taken only once in the student's career.
BIO/14 - PHARMACOLOGY - University credits: 10
Lessons: 80 hours