THREE-DIMENSIONAL MODELING

Course objectives

The course is meant to provide the fundamental understanding of the molecular basis of human diseases. By the end of the course, the student must: - Know the etiology and the pathogenic mechanisms of human diseases, and the fundamental pathophysiological mechanisms concerning the main organs and systems. - Be able to analyze and to interpret the fundamental etiopathogenic and pathophysiological mechanisms of human diseases. - Be aware that being able to analyze and interpret the fundamental etiopathogenic and pathophysiological mechanisms will be essential for a correct clinical approach to human diseases. MED/04 Learning outcomes: By the end of the course, the student will have to: - Know the molecular mechanisms involved in human cancer development and progression. Know the pathophysiology of metabolism, including atherogenesis and atherosclerosis, and the pathophysiology of major systems. - Be able to discuss the molecular mechanisms of human cancer, and of the general pathophysiology of metabolism and the pathophysiology of major systems. - Be aware that being able to analyze and interpret the molecular mechanisms of human cancer and the general pathophysiology of metabolism and of major systems will be essential for a correct clinical approach to diseases. MED/05 Learning outcomes: By the end of the course, the student will have to: - Know the molecular mechanisms involved in human cancer development and progression. - Know the most relevant laboratory approaches to cancer molecular genetics. MED/13 Learning outcomes: By the end of the course, the student will have to: - Know the pathophysiology of metabolism and the pathophysiology of major systems. - Be able to discuss the general pathophysiology of metabolism and the pathophysiology of major systems. - Be aware that being able to analyze and interpret the molecular mechanisms of the general pathophysiology of metabolism and of major systems will be essential for a correct clinical approach to diseases. MED/46 Learning outcomes: By the end of the course, the student will have to: - Understand the mechanisms of tumorigenesis induced by physical and chemical agents, and experimental methods for the evaluation of the mutagenic potential of chemical and physical agents. Knowing how to choose which methodological approach is more rational based on the type of agent to be analyzed. - Deepen the knowledge of the molecular mechanisms of smoking and alcohol-induced tumorigenesis. - know the pathogenetic mechanisms of cancer associated with the alteration of the mechanisms of apoptosis, and the methodological approaches for the evaluation of apoptosis. Acquire awareness of the complexity and relevance of the mechanisms of deregulation of apoptosis and of the consequences of these alterations on therapeutic approaches. To know the main antiapoptotic mechanisms used by oncogenic viruses.

Channel 1
GIANLUCA CANETTIERI Lecturers' profile

Program - Frequency - Exams

Course program
Contents: Oncology: Cell/Tissue phenotypic changes: metaplasia, dysplasia, anaplasia and precancerous lesions. Definition of cancer. Morphological and biochemical features of the neoplastic cell. Histogenetic classification of tumors. Clinical criteria for the classification of tumors: grading and staging. Pathophysiology of replication and of cell differentiation and growth factors. Physical, chemical, viral and hormonal carcinogenesis. Stages of the neoplastic process: initiation, promotion and progression (invasion, metastasis, angiogenesis). Oncogenes and their activation mechanisms. Tumor suppressor genes. Genomic instability. Hereditary tumors. Stem cells and cancer stem cells. Developmental pathways and cancer. Immunity, inflammation and cancer. Cancer metabolism. Biological basis of target antineoplastic therapy. General Pathophysiology: Pathophysiology of metabolism (amino acids, purine and pyrimidine bases, lipids and lipid disorders). Atherogenesis and atherosclerosis. Pathophysiology of the Endocrine System: classes of hormones and receptors, secretion and transport. Pathophysiology of the thyroid gland: epithelial cells and parafollicular C cells, thyroid hormones, transporters iodine and TPO. Pathogenesis of hypothyroidism and hyperthyroidism, papillary thyroid cancer, follicular, medullary and anaplastic (MTC). Pathophysiology of glucose metabolism: endocrine pancreas and regulation of glucose homostasis. Diabetes: definitions and etiological classification; type 1 diabetes, type 2 diabetes, other types of diabetes and gestational diabetes: Pathophysiology of complications of the diabetic patient. The gut hormones: the incretin hormones GLP-1 and GIP. Pathophysiology of Obesity General pathophysiology of blood, blood-forming organs and haemostasis. General pathophysiology of major systems: renal, respiratory, hepatic, cardiocirculatory systems; fluid and electrolyte replacement; acid-base
Books
Suggested textbooks: Pathologic Basis of Disease. Robbins & Cotran. Eight Edition. Editor: W B Saunders Co, 2009 Understanding pathophysiology. S. Huether, K. McCance. Elsevier, 2012 Cells, Tissues and Disease. Principles of general pathology. G. Majno, I. Joris. Oxford University Press, 2004. Rubin’s Pathology. Clinicopathologic foundation of medicine. Rubin & Straier. Lippincott Raven; 6 Har/Psc, ed. 2011. Updated bibliography will be communicated during the lectures.
Frequency
Mandatory
Exam mode
Oral Examination
GIUSEPPE GIANNINI Lecturers' profile

Program - Frequency - Exams

Prerequisites
Requirements for the full course: A basic knowledge of biochemistry, biology and genetics, human histology and embryology, microbiology, human anatomy and physiology is required. To take the final exam (including the I and II semester), the student must have passed all the exams of the I and II years and Human Phisiology.
Frequency
Mandatory
Exam mode
Students must attend an oral examination on the topics of the entire course (Pathology and Pathophysiology I and II). An ongoing oral examination on the topics of Pathology and Pathophysiology I is discretionary.
Bibliography
Updated bibliography will be communicated during the lectures.
MARIA PIA FELLI Lecturers' profile

Program - Frequency - Exams

Course program
Contents: Oncology: Cell/Tissue phenotypic changes: metaplasia, dysplasia, anaplasia and precancerous lesions. Definition of cancer. Morphological and biochemical features of the neoplastic cell. Histogenetic classification of tumors. Clinical criteria for the classification of tumors: grading and staging. Pathophysiology of replication and of cell differentiation and growth factors. Physical, chemical, viral and hormonal carcinogenesis. Stages of the neoplastic process: initiation, promotion and progression (invasion, metastasis, angiogenesis). Oncogenes and their activation mechanisms. Tumor suppressor genes. Genomic instability. Hereditary tumors. Stem cells and cancer stem cells. Immunity, inflammation and cancer. Biological basis of target antineoplastic therapy. General Pathophysiology: Pathophysiology of metabolism (amino acids, purine and pyrimidine bases, lipids and lipid disorders). Atherogenesis and atherosclerosis. Pathophysiology of the Endocrine System: classes of hormones and receptors, secretion and transport. Pathophysiology of the thyroid gland: epithelial cells and parafollicular C cells, thyroid hormones, transporters iodine and TPO. Pathogenesis of hypothyroidism and hyperthyroidism, papillary thyroid cancer, follicular, medullary and anaplastic (MTC). Pathophysiology of diabetes mellitus: endocrine pancreas, definitions and etiological classification: type 1 diabetes, type 2 diabetes, other types of diabetes and gestational diabetes: Pathophysiology of complications of the diabetic patient. The gut hormones: the incretin hormones GLP-1 and GIP. General pathophysiology of blood, blood-forming organs and haemostasis. General pathophysiology of major systems: renal, respiratory, hepatic, cardiocirculatory systems; fluid and electrolyte replacement; acid-base
Prerequisites
Requirements: A basic knowledge of biochemistry, biology and genetics, human histology and embryology, microbiology, human anatomy and physiology is required. To take the final exam (including the I and II semester), the student must have passed all the exams of the I and II years and Human Phisiology.
Books
Suggested textbooks: Pathologic Basis of Disease. Robbins & Cotran. Eight Edition. Editor: W B Saunders Co, 2009 Understanding pathophysiology. S. Huether, K. McCance. Elsevier, 2012 Cells, Tissues and Disease. Principles of general pathology. G. Majno, I. Joris. Oxford University Press, 2004. Rubin’s Pathology. Clinicopathologic foundation of medicine. Rubin & Straier. Lippincott Raven; 6 Har/Psc, ed. 2011.
Frequency
mandatory
Exam mode
Evaluation methods: Students must attend an oral examination on the topics of the entire course (Pathology and Pathophysiology I and II). An ongoing oral examination on the topics of Pathology and Pathophysiology I is discretionary.
Lesson mode
frontal lectures
ELISABETTA FERRETTI Lecturers' profile

Program - Frequency - Exams

Course program
Contents: Oncology: Cell/Tissue phenotypic changes: metaplasia, dysplasia, anaplasia and precancerous lesions. Definition of cancer. Morphological and biochemical features of the neoplastic cell. Histogenetic classification of tumors. Clinical criteria for the classification of tumors: grading and staging. Pathophysiology of replication and of cell differentiation and growth factors. Physical, chemical, viral and hormonal carcinogenesis. Stages of the neoplastic process: initiation, promotion and progression (invasion, metastasis, angiogenesis). Oncogenes and their activation mechanisms. Tumor suppressor genes. Genomic instability. Hereditary tumors. Stem cells and cancer stem cells. Immunity, inflammation and cancer. Biological basis of target antineoplastic therapy. General Pathophysiology: Pathophysiology of metabolism (amino acids, purine and pyrimidine bases, lipids and lipid disorders). Atherogenesis and atherosclerosis. Pathophysiology of the Endocrine System: classes of hormones and receptors, secretion and transport. Pathophysiology of the thyroid gland: epithelial cells and parafollicular C cells, thyroid hormones, transporters iodine and TPO. Pathogenesis of hypothyroidism and hyperthyroidism, papillary thyroid cancer, follicular, medullary and anaplastic (MTC). Pathophysiology of diabetes mellitus: endocrine pancreas, definitions and etiological classification: type 1 diabetes, type 2 diabetes, other types of diabetes and gestational diabetes: Pathophysiology of complications of the diabetic patient. The gut hormones: the incretin hormones GLP-1 and GIP. General pathophysiology of blood, blood-forming organs and haemostasis. General pathophysiology of major systems: renal, respiratory, hepatic, cardiocirculatory systems; fluid and electrolyte replacement; acid-base
Prerequisites
Passing propedeutics examinations
Books
Suggested textbooks: Pathologic Basis of Disease. Robbins & Cotran. Eight Edition. Editor: W B Saunders Co, 2009 Understanding pathophysiology. S. Huether, K. McCance. Elsevier, 2012 Cells, Tissues and Disease. Principles of general pathology. G. Majno, I. Joris. Oxford University Press, 2004. Rubin’s Pathology. Clinicopathologic foundation of medicine. Rubin & Straier. Lippincott Raven; 6 Har/Psc, ed. 2011. Updated bibliography will be communicated during the lectures
Teaching mode
Classroom lessons with compulsory attendance
Frequency
Classroom lessons with compulsory attendance
Exam mode
Students must attend an oral examination on the topics of the entire course (Pathology and Pathophysiology I and II). An ongoing oral examination on the topics of Pathology and Pathophysiology I is discretionary.
Lesson mode
Lectures, elective activities including a laboratory experience.
  • Academic year2025/2026
  • CourseMedicine and Surgery
  • CurriculumSingle curriculum
  • Year3rd year
  • Semester2nd semester
  • SSDMED/04
  • CFU7