Course instructors are responsible for the course content descriptions in English.
Concept, historical evolution, and classification of drug use disorders. Cellular and molecular mechanisms underlying drug addiction: tolerance, dependence, sensibilization, motivation, craving, and relapse. Neurobiological mechanisms underlying drug addiction. Alcohol. Nicotine. Cannabis. Cocaine and other psychostimulants. Opiates. Hallucinogens. Other drugs of abuse. Imaging techniques in research on addiction. Pharmacological treatment of the main drug use disorders. Animal models for studying drug use disorders.
Competencies and learning outcomes
- Understand the need for translational research as a bridge between the discovery of new therapeutic targets in preclinical research and the development of new drugs and their application in neuropsychopharmacology.
- Update, consolidate, integrate, and evaluate new knowledge in translational neuropsychopharmacology to improve academic, research, and professional activity using continuous self-learning techniques and critical analysis.
- Recognize the main characteristics of the most important psychiatric and neurological diseases.
- Understand the relevance of the results obtained from animal experimentation in advancing therapeutic management of patients with psychiatric and neurological diseases.
- Possess and understand theoretical-practical and computer knowledge that permits designing studies in the area of translational neuropsychopharmacology.
- Develop sufficient autonomy to join groups of basic and clinical research in the area of neuropsychopharmacology.
- Learn how to express the results obtained in multidisciplinary contexts in the area of translational neuropsychopharmacology orally and in writing.
- Acquire the necessary skills to develop academic, professional, and research activities in the area of translational neuropsychopharmacology.
- Describe the methods and principles that must be applied when handling food in a translational neuropsychopharmacology laboratory.
- Relate neurochemical brain alterations with changes in the patterns of animal and human behavior.
- Know the most important brain circuits involved in the main neurological and psychiatric diseases.
- Learn the most relevant properties of drug-receptor molecular interaction and their involvement in translational neuropsychopharmacology.
- Know the main tools employed in the evaluation of the functional activity of receptors and neurotransmitters.
- Identify the therapeutic groups and targets on which drugs used in the treatment of the main neurological and psychiatric diseases act.
- Know the main animal models used in the study of affective disorders, addictions, and the main neurological diseases.
- Learn to use computer and documentation tools for updating research knowledge in translational neuropsychopharmacology.
- Learn to discriminate and compare scientific information for reviewing studies or developing research that helps to improve scientific knowledge of translational neuropsychopharmacology and make decisions based on scientific evidence.
- Promote continuous learning as a tool for updating knowledge related to translational neuropsychopharmacology.
- Understand the general principles of translational research in neuropsychopharmacology.
- Learn to use the information from functional targets obtained from animal models and clinical studies bidirectionally.
- Learn to design and plan research projects in the area of translational neuropsychopharmacology.
- Acquire the necessary capabilities to disseminate the knowledge obtained in clinical studies and trials with animal models in the form of scientific articles with an international impact.
- Learn to design and conduct animal modeling research by studying videotapes of psychopharmacological practices.
- Learn to interpret the results obtained by carrying out animal evaluation models of active drugs in the central nervous system by studying videotapes of psychopharmacological practices.
Objectives (Learning outcomes)
- Describe and understand the key ideas of drug use disorders.
- Describe and explain the main pharmacological properties (action mechanism, pharmacological treatment and adverse effects) of the different drugs: opiates, anfetamines, MDMA, cannabis, hallucinogen, nicotine and other abuse drugs.
- Describe and understand the animal models of addictive disorders as tools in the identification of new therapeutic targets.
- Pere Antoni Soler Insa, Josep Gascón Barrachina. "Recomendaciones Terapéuticas en los trastornos mentales". Cyesan.
Methodology and grading
- Test (40 % of the final note of the subject): 25 multiple choice questions that will be answered on-line the selected day (previously indicated in the schedule).
Participation in the discussion forum (30 % of the final note of the subject). The participation in the forum will be evaluated according to the contributions of each student. The forum will remain opened 24 hours.
Evaluation of practial sessions (30 % of the final note of the subject): 25 questions multiple choice questions.
To pass the subject, will be mandatory the participation of the student in the discussion forum and the test qualification has to be equal or higher than 5.0