The purpose of the course is to give doctoral students a broad knowledge of Alzheimer's disease, covering cellular
mechanisms as well as clinical features and diagnosis. Experts in the field are invited to give the lectures securing
communication of up-to-date knowledge about the disease. Students will also get the opportunity to obtain deeper
knowledge on specific sub-topics during the planned group assignments. The second part will provide pratical
knowledge about brain development, brain anatomy and connectivty and AD and dementia neuropathologies.

We will investigate mainly fish brains, but also some invertebrate model systems to get on overview of the major differences in neuronal organization between them. Sensory and motor pathways will be compared and pathways will be traced from primary sensory centres through higher integrative centres to motor command areas.

Topic 1: Pharmacologically relevant signalling pathways
Topic 2: Drugs for the treatment of pain: local anaesthetics, opioids
Topic 3: Drugs influencing vigilance: hypnotics, general anaesthetics
Topic 4: Treatment of psychiatric diseases: antipsychotics, antidepressants
Topic 5: Drugs of abuse: opioids, cannabinoids
Topic 6: Neurodegenerative disorders
Methods 1: Drug mechanisms and signalling in neurons
Methods 2: Modulation of neurotransmitter release in brain slices
Methods 3: Standard behavioural tests in drug development - pharmaceutical industry
Methods 4: Development of innovative drugs – gene and cell therapies
Methods 5: Regulatory Affairs

Methodology and Theory of Cognitive Neuroscience:

• Psychology: what makes it a science?
• Experimental strategies: psychophysiology, neuropsychology
• Philosophical implications of cognitive neurosciences

Cognitive Neuroscience: main findings on brain-function relationships

Clinical Neurophysiology and Imaging:

• Electroencephalography (EEG) as a neurodiagnostic tool
• Advanced methods of EEG analysis: coherence, fast Fourier, non-linear and other analysis
• Structural and functional brain imaging as neurodiagnostic tools

Experimental Psychophysiology:

• Electrophysiology: event-related potentials, non-invasive and invasive
• Magnetic resonance tomography: functional neuroimaging (fMRI)

Clinical Neuropsychology:

• Neuropsychological assessment
• Cortical electrostimulation
• WADA test

6. Experimental Neuropsychology

• Animal models of behavioural deficits in epilepsy