Indice degli argomenti
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NOI CI SIAMO
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Each group presented unique and relevant research with varying levels of detail, innovation, and potential impact.
Pink Group (30/30): Focused on circSNCA in Parkinson's disease, using innovative methodologies. Their research was comprehensive with a clear timeline and significant potential impact.
Purple Group (30/30): Explored gene therapy for Lafora Disease. The project was well-structured with a strong focus on a rare genetic disorder, though more details in certain areas could strengthen it.
Red Group (28/30): Investigated miRNA roles in epilepsy using organoid models. The project was thorough with clear objectives but needed more explicit timelines.
Yellow Group (28/30): Examined XEN901 in reducing chemotherapy-induced peripheral neuropathy. The project was relevant and well-structured but could benefit from addressing potential risks and providing a more detailed analysis of expected outcomes.
Blue Group (27/30): Studied the microbiota-depression link, combining genetic, cellular, and behavioral studies. The research was relevant, needing more specificity in challenges and expected outcomes.
Orange Group (27/30): Explored miR-199a-5p in Rett Syndrome. The study was comprehensive and innovative but could be improved by addressing potential hurdles and specific expected outcomes.
Black Group (27/30): Focused on Selegiline for dopamine-responsive dystonia. The study was well-structured but lacked detailed discussions on challenges and limitations.
Green Group (27/30): Investigated aromatherapy for stress reduction in mice. The research was relevant but needed more detail on potential risks, specific outcomes, and deeper discussion on findings.
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Cellular and Molecular Physiology.
Introduction: homeostatic control, positive and negative feedback
Cellular and molecular bases of intercellular communication- synaptic paracrine and hormonal
Synaptic transmission – molecular determinants of electrical and chemical neurotransmission
Physiological and pathological alterations of ionic equilibrium, ionic channels and receptors
- Short and long term synaptic plasticity of glutamatergic receptors
- Channelopathies of cardiac muscle (long QT syndrome), skeletal muscle (myasthenia), epileptic and ALS associated channelopathies
- Neuronal chloride homeostasis: membrane transporters and their regulation during development and epilepsy – depolarizing GABA
Molecular determinants of sensory perception: signal transduction pathways in chemical senses, vision and hearing
Neuron-glia interaction in CNS functions:
- Astrocytic functions
- Tripartite synapse
- Migroglial functions
- Microglial involvement in synaptic remodelling
- Chemokines as signals of neuron-glial communication
- Neuroprotection and neurotoxicity of glial cells
- Microbiota gut brain axis
Neuro-hormonal communication in the regulation of: sleep-wake rhythms, salt water balance, blood glucose control, growth and metabolism. -
Dear Students,
the new room is Aula Bovet CU026
The timetable is
Monday 4-6 pm
Wednesday 4-6 pm
Lectures will be in person
Please take note that the profit assessment will be done in different modes for attending and non-attending students:
Attending students will be able to participate in projects during the course that will contribute to the final assessment.
For nonattending students, the exam is on the entire program with a written and oral assessment.•
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SPW are due before January 10th, 2024 at 6.00 PM
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Please fill the OPIS
Code: X4ACN9GJ
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Free site - you can create your profile, watch videos and practice
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CHOOSE TEHE TOPIC
FINALIZE THE GROUP
WRITE THE BACKGROUND
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Each group should define better the topic and decide which is the main question that the project will try to answer.
The first thing will be to understand the state of the art.
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Follow this proposal template
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Work on Background
Identify the AIMS
Identify the Methods
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Deadline for project Submission January 8th 2024 (mandatory)
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Tripartite synapses: astrocyte regulation of synaptic and network function
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