All PhD courses are conducted 'in person' and are delivered in English.
Teacher in charge: Elisabetta Mutto AccordiTeaching Hours: 13Number of ECTS credits allocated: 1Course period: January: 27, 16:00-18.00 RL room | 28, 16:00-18.00 RM room | 29, 16:00-18.00 RL room
Course unit contents The course is dedicated to students of the 3rd year and secondly to students of 2nd year. course syllabus REGISTER
Teacher in charge: Elisabetta Mutto AccordiTeaching Hours: 13Number of ECTS credits allocated: 1Course period: January: 27, 16:00-18.00 RL room | 28, 16:00-18.00 RM room | 29, 16:00-18.00 RL room
Course unit contents The course is dedicated to students of the 3rd year and secondly to students of 2nd year. course syllabus REGISTER
Teacher in charge: Regina Tavano, Emanuele Papini, Giulio Fracasso, Laura FuscoTeaching Hours: 10Number of ECTS credits allocated: 2Course period: April 28-29-30 | May 5, 15.30-18.00 RL room
Course unit contents
Introduction to Nanotechnology: why is something so small so big? What are the challenges of implementing nanomedicine? Surface-masking, protein-corona, biodistribution; how to integrate preclinical models and humans? Therapeutic applications (i.e. drug transporter, photodynamic therapy, photothermal ablation) Biocompatibility and biomedical applications of new two-dimensional nanomaterials: MXenes course syllabus REGISTER
Teacher in charge: Regina Tavano, Emanuele Papini, Giulio Fracasso, Laura FuscoTeaching Hours: 10Number of ECTS credits allocated: 2Course period: April 28-29-30 | May 5, 15.30-18.00 RL room
Course unit contents
Introduction to Nanotechnology: why is something so small so big? What are the challenges of implementing nanomedicine? Surface-masking, protein-corona, biodistribution; how to integrate preclinical models and humans? Therapeutic applications (i.e. drug transporter, photodynamic therapy, photothermal ablation) Biocompatibility and biomedical applications of new two-dimensional nanomaterials: MXenes course syllabus REGISTER
Teacher in charge: Denis MartinvaletTeaching Hours: 10Number of ECTS credits allocated: 2Course period: May 23-26-27-28-30
Course unit contents
Self and non-self for the cytotoxic lymphocytes: A general introduction to basic immunology; Cytotoxic lymphocytes in the body: Histology of lymphoid tissues; Development, function and pathology of cytotoxic lymphocytes; Mechanisms of lymphocyte cytotoxicity. 5. Cytotoxic lymphocytes in the clinic. course syllabus REGISTER
Teacher in charge: Denis MartinvaletTeaching Hours: 10Number of ECTS credits allocated: 2Course period: May 23-26-27-28-30
Course unit contents
Self and non-self for the cytotoxic lymphocytes: A general introduction to basic immunology; Cytotoxic lymphocytes in the body: Histology of lymphoid tissues; Development, function and pathology of cytotoxic lymphocytes; Mechanisms of lymphocyte cytotoxicity. 5. Cytotoxic lymphocytes in the clinic. course syllabus REGISTER
Teacher in charge: Federico FerraccioliTeaching Hours: 20Number of ECTS credits allocated: 3Course period: January 15-16-17-28-29, 9:00-12:00
Course unit contents
Statistical inference: hypothesis testing, interpretation of p-value, types of errors, power. Confidence intervals. The problem of multiple tests; Basic methods: inference on proportions and means, comparisons of two or more samples. Non-parametric alternatives (Wilcoxon, Kruskall-Wallis); Advanced methods: One-way or two-way analysis of variance. Introduction to regression models. Introduction to principal component analysis. course syllabus REGISTER
Teacher in charge: Federico FerraccioliTeaching Hours: 20Number of ECTS credits allocated: 3Course period: January 15-16-17-28-29, 9:00-12:00
Course unit contents
Statistical inference: hypothesis testing, interpretation of p-value, types of errors, power. Confidence intervals. The problem of multiple tests; Basic methods: inference on proportions and means, comparisons of two or more samples. Non-parametric alternatives (Wilcoxon, Kruskall-Wallis); Advanced methods: One-way or two-way analysis of variance. Introduction to regression models. Introduction to principal component analysis. course syllabus REGISTER
Teacher in charge: Tania Zaglia, Marco MongilloTeaching Hours: 10Number of ECTS credits allocated: 2Course period: March-April 2025
Course unit contents
Vegetative neuro-modulation of the heart; Unveiling previously neglected roles of the cardiac autonomic nervous system: a leap from traditional physiology; The optogenetics era: a light touch to reveal the deep and dark secrets of cardiac innervation; Tissue clearing: an innovative methodology to clear the cardiac nervous tangles 5. Can artificial intelligence predict the thoughts of little heart brain? course syllabus REGISTER
Teacher in charge: Tania Zaglia, Marco MongilloTeaching Hours: 10Number of ECTS credits allocated: 2Course period: March-April 2025
Course unit contents
Vegetative neuro-modulation of the heart; Unveiling previously neglected roles of the cardiac autonomic nervous system: a leap from traditional physiology; The optogenetics era: a light touch to reveal the deep and dark secrets of cardiac innervation; Tissue clearing: an innovative methodology to clear the cardiac nervous tangles 5. Can artificial intelligence predict the thoughts of little heart brain? course syllabus REGISTER
Teacher in charge: To be definedTeaching Hours: 10Number of ECTS credits allocated: 2Course period: May 12, 16:00-18:00 RL room | 13, 16:00-18:00 RL room | 14, 16:00-18:00 RL room | 16, 16:00-18:00 RL room | 19, 16:00-18:00 RL room
Course unit contents
Introduction to astrocytes, general aspects and brief history; Changing the flow: astrocytes and neurovascular coupling Astrocytes: from calcium signaling to behavior; Astrocytes and anxiety-like behavior; The dark side: astrocytes in neuroinflammation and neurodegeneration. course syllabus REGISTER
Teacher in charge: To be definedTeaching Hours: 10Number of ECTS credits allocated: 2Course period: May 12, 16:00-18:00 RL room | 13, 16:00-18:00 RL room | 14, 16:00-18:00 RL room | 16, 16:00-18:00 RL room | 19, 16:00-18:00 RL room
Course unit contents
Introduction to astrocytes, general aspects and brief history; Changing the flow: astrocytes and neurovascular coupling Astrocytes: from calcium signaling to behavior; Astrocytes and anxiety-like behavior; The dark side: astrocytes in neuroinflammation and neurodegeneration. course syllabus REGISTER
Teacher in charge: Rosario Rizzuto, Annamaria LiaTeaching Hours: 10Number of ECTS credits allocated: 2Course period: June 3, 16:00-18:00 RL room | 4, 16:00-18:00 RL room | 6, 16:00-18:00 RL room | 10, 16:00-18:00 RL room | 11, 16:00-18:00 RL room
Course unit contents
Introduction to the world of RNA; RNA Delivery: strategies and limitations; mRNA based strategies: applications; RNA interference and ASOs; siRNA: advantages and examples. course syllabus REGISTER
Teacher in charge: Rosario Rizzuto, Annamaria LiaTeaching Hours: 10Number of ECTS credits allocated: 2Course period: June 3, 16:00-18:00 RL room | 4, 16:00-18:00 RL room | 6, 16:00-18:00 RL room | 10, 16:00-18:00 RL room | 11, 16:00-18:00 RL room
Course unit contents
Introduction to the world of RNA; RNA Delivery: strategies and limitations; mRNA based strategies: applications; RNA interference and ASOs; siRNA: advantages and examples. course syllabus REGISTER
Teacher in charge: To be definedTeaching Hours: 10Number of ECTS credits allocated: 2Course period: June 16, 16:00-18:00 RL room | 17, 16:00-18:00 RL room | 23, 16:00-18:00 RL room | 24, 16:00-18:00 RL room | 25, 16:00-18:00 RL room
Course unit contents
Skeletal muscle: introduction to tissue complexity; Signaling pathways controlling muscle mass; Lysosomes biology: from early discoveries to novel emerging functions; Lysosomes biology: from trash bins to signaling hubs; Novel insights into lysosomal function in muscle atrophy. course syllabus REGISTER
Teacher in charge: To be definedTeaching Hours: 10Number of ECTS credits allocated: 2Course period: June 16, 16:00-18:00 RL room | 17, 16:00-18:00 RL room | 23, 16:00-18:00 RL room | 24, 16:00-18:00 RL room | 25, 16:00-18:00 RL room
Course unit contents
Skeletal muscle: introduction to tissue complexity; Signaling pathways controlling muscle mass; Lysosomes biology: from early discoveries to novel emerging functions; Lysosomes biology: from trash bins to signaling hubs; Novel insights into lysosomal function in muscle atrophy. course syllabus REGISTER
