Degree Course: Medicine and Surgery
A.Y. 2022/2023
Conoscenza e capacità di comprensione
I laureati in Medicina e chirurgia, oltre a conoscere le esigenze sanitarie dei principali Paesi in via di sviluppo, devono acquisire i seguenti obiettivi di apprendimento: correlare la struttura e la funzionalità normale dell'organismo come complesso di sistemi biologici in continuo adattamento; interpretare le anomalie morfo-funzionali dell'organismo che si riscontrano nelle diverse malattie; individuare il comportamento umano normale e anormale; indicare i determinanti e i principali fattori di rischio della salute e della malattia e dell'interazione tra l'uomo ed il suo ambiente fisico e sociale; ricordare i fondamentali meccanismi molecolari, cellulari, biochimici e fisiologici che mantengono l'omeostasi dell'organismo; descrivere il ciclo vitale dell'uomo e gli effetti della crescita, dello sviluppo e dell'invecchiamento sull'individuo, sulla famiglia e sulla comunità; illustrare l'eziologia e la storia naturale delle malattie acute e croniche; richiamare le conoscenze essenziali relative all'epidemiologia, all'economia sanitaria e ai principi del management della salute; correlare i principi dell'azione dei farmaci le loro indicazioni con l'efficacia delle varie terapie farmacologiche; attuare al livello richiesto all'inizio dell'esercizio professionale i principali interventi biochimici, farmacologici, chirurgici, psicologici, sociali e di altro genere, nella malattia acuta e cronica, nella riabilitazione e nelle cure di tipo terminale.
Inoltre, saranno messi in condizione di agire in condizioni di emergenza, attesa la peculiarità delle aree nelle quali si troveranno non di rado a fornire la propria opera, caratterizzate da numerose emergenze, anche belliche, con scarsa densità di personale sanitario.Capacità di applicare conoscenza e comprensione
I laureati in Medicina e chirurgia devono avere le seguenti capacità cliniche: raccogliere correttamente una storia clinica adeguata, che comprenda anche aspetti sociali, come la salute occupazionale; effettuare un esame dello stato fisico e mentale; eseguire le procedure diagnostiche e tecniche di base, analizzarne ed interpretarne i risultati, allo scopo di definire correttamente la natura di un problema; eseguire correttamente le strategie diagnostiche e terapeutiche adeguate, allo scopo di salvaguardare la vita e applicare i principi della medicina basata sull'evidenza; esercitare il corretto giudizio clinico per stabilire le diagnosi e le terapie nel singolo paziente; riconoscere ogni condizione che metta in pericolo imminente la vita del paziente; gestire correttamente e in autonomia le urgenze mediche più comuni; curare e prendersi cura dei pazienti in maniera efficace, efficiente ed etica, promuovendo la salute ed evitando la malattia; individuare i problemi prevalenti di salute e consigliare i pazienti prendendo in considerazione fattori fisici, psichici, sociali e culturali; fornire le indicazioni per l'utilizzo appropriato delle risorse umane, degli interventi diagnostici, delle modalità terapeutiche e delle tecnologie dedicate alla cura della salute.Autonomia di giudizio
Descrittori di Dublino 3 - making judgements
I laureati della Saint Camillus devono avere la capacità di integrare le conoscenze e gestire la complessità, nonché di formulare giudizi sulla base di informazioni limitate o incomplete, includendo la riflessione sulle responsabilità sociali ed etiche collegate all'applicazione delle loro conoscenze e giudizi.
Pertanto dovranno mostrare nei seguenti ambiti
- Pensiero Critico e Ricerca scientifica
- Valori Professionali, Capacità, Comportamento ed Etica
Pensiero Critico e Ricerca scientifica
1) Dimostrare nello svolgimento delle attività professionali un approccio critico, uno scetticismo costruttivo, ed un atteggiamento creativo orientato alla ricerca,.
2) Tenere in considerazione l'importanza e le limitazioni del pensiero scientifico basato sull'informazione, ottenuta da diverse risorse, per stabilire la causa, il trattamento e la prevenzione delle malattie.
3) Formulare giudizi personali per risolvere i problemi analitici e complessi ('problem solving') e ricercare autonomamente l'informazione scientifica, senza aspettare che essa sia loro fornita.
4) Identificare, formulare e risolvere i problemi del paziente utilizzando le basi del pensiero e della ricerca scientifica e sulla base dell'informazione ottenuta e correlata da diverse fonti.
5) Essere consapevoli del ruolo che hanno la complessità, l'incertezza e la probabilità nelle decisioni prese durante la pratica medica.
6) Formulare ipotesi, raccogliere e valutare in maniera critica i dati, per risolvere i problemi.
Valori Professionali, Capacità, Comportamento ed Etica
1) Identificare gli elementi essenziali della professione medica, compresi i principi morali ed etici e le responsabilità legali che sono alla base della professione.
2) Rispettare i valori professionali che includono eccellenza, altruismo, responsabilità, compassione, empatia, attendibilità, onestà e integrità, e l'impegno a seguire metodi scientifici.
3) Essere consapevoli che ogni medico ha l'obbligo di promuovere, proteggere e migliorare questi elementi a beneficio dei pazienti, della professione e della società.
4) Riconoscere che una buona pratica medica dipende strettamente dall'interazione e dalle buone relazioni tra medico, paziente e famiglia, a salvaguardia del benessere, della diversità culturale e dell'autonomia del paziente.
5) Dimostrare la capacità di applicare correttamente i principi del ragionamento morale e adottare le giuste decisioni riguardo ai possibili conflitti nei valori etici, legali e professionali, compresi quelli che possono emergere dal disagio economico, dalla commercializzazione delle cure della salute e dalle nuove scoperte scientifiche.
6) Rispondere con l'impegno personale alla necessità del miglioramento professionale continuo nella consapevolezza dei propri limiti, compresi quelli della propria conoscenza medica.
7) Rispettare i colleghi e gli altri professionisti della salute, dimostrando la capacità di instaurare rapporti di collaborazione con loro.
8) Ottemperare all'obbligo morale di fornire cure mediche nelle fasi terminali della vita, comprese le terapie palliative dei sintomi e del dolore.
9) Attuare i principi etici e deontologici nel trattamento dei dati del paziente, nell'evitare il plagio, nella riservatezza e nel rispetto della proprietà intellettuale.
10) Programmare in maniera efficace e gestire in modo efficiente il proprio tempo e le proprie attività per fare fronte alle condizioni di incertezza, ed esercitare la capacità di adattarsi ai cambiamenti.
11) Esercitare la responsabilità personale nel prendersi cura dei singoli pazienti.
I risultati attesi verranno conseguiti attraverso la frequenza alle attività formative di base, caratterizzanti e affini, organizzate in corsi integrati specifici tali da garantire la visione unitaria e interdisciplinare degli obiettivi didattici stessi.
Le forme didattiche previste comprendono lezioni frontali, conferenze, seminari, gruppi di discussione.
Il processo d'insegnamento si avvarrà inoltre dei moderni strumenti didattici, costituiti dal sistema tutoriale, dal trigger clinico, dal problem oriented learning, dall'experiencial learning, dal problem solving, dal decision making.
Particolare attenzione verrà data all'acquisizione delle abilità pratiche, tramite il coinvolgimento nella pianificazione di una ricerca di base nei primi tre anni di corso e la partecipazione a programmi di ricerca nel periodo di internato ai fini della preparazione della tesi di laurea.
I risultati attesi verranno verificati attraverso prove scritte e/o prove orali.
La valutazione degli studenti avverrà anche attraverso verifiche formative in itinere (prove di autovalutazione e colloqui intermedi), relazioni scritte degli studenti su temi assegnati, ed attraverso la valutazione del profilo complessivo elaborato in base a criteri predefiniti.
Le prove d'esame potranno essere articolate (oltre che nelle tradizionali modalità dell'esame orale e/o scritto) anche in una sequenza di items utili a verificare le conoscenze acquisite come i test a scelta multipla o le risposte brevi scritte organizzati su problemi o casi clinici a carattere interdisciplinare, seguiti da esami utili ad accertare le competenze cliniche acquisite.Abilità comunicative
Descrittori di Dublino 4 - communication skills
I laureati della Saint Camillus devono saper comunicare in modo chiaro e privo di ambiguità le loro conclusioni, le conoscenze e la ratio ad esse sottese a interlocutori specialisti e non specialisti, nonché - con le modalità richieste dalle circostanze - ai propri pazienti.
Sotto questo profilo dovranno conoscere gli elementi caratterizzanti di alcune tra le principali “culture” dei Paesi in via di Sviluppo, ivi incluse conoscenze di attualità storica e politica al fine di interagire efficacemente con le complesse realtà sociali di Paesi dalle caratteristiche non omogenee e, sicuramente,, distanti dalla morfologia socio-politica dei Paesi occidentali.
Capacità di Comunicazione
1) Ascoltare attentamente per estrarre e sintetizzare l'informazione rilevante su tutte le problematiche, comprendendone i loro contenuti.
2) Mettere in pratica le capacità comunicative per facilitare la comprensione con i pazienti e loro parenti, rendendoli capaci di condividere le decisioni come partners alla pari.
3) Comunicare in maniera efficace con i colleghi, con la Facoltà, con la comunità, con altri settori e con i media.
4) Interagire con altre figure professionali coinvolte nella cura dei pazienti attraverso un lavoro di gruppo efficiente.
5) Dimostrare di avere le capacità di base e gli atteggiamenti corretti nell'insegnamento agli altri.
6) Dimostrare una buona sensibilità verso i fattori culturali e personali che migliorano le interazioni con i pazienti e con la comunità.
7) Comunicare in maniera efficace sia oralmente che in forma scritta.
8) Creare e mantenere buone documentazioni mediche.
9) Riassumere e presentare l'informazione appropriata ai bisogni dell'audience, e discutere piani di azione raggiungibili e accettabili che rappresentino delle priorità per l'individuo e per la comunità
I risultati attesi verranno conseguiti attraverso la frequenza alle attività formative di base, caratterizzanti e affini, organizzate in corsi integrati specifici tali da garantire la visione unitaria e interdisciplinare degli obiettivi didattici stessi.
Le forme didattiche previste comprendono lezioni frontali, conferenze, seminari, gruppi di discussione.
Il processo d'insegnamento si avvarrà inoltre dei moderni strumenti didattici, costituiti dal sistema tutoriale, dal trigger clinico, dal problem oriented learning, dall'experiencial learning, dal problem solving, dal decision making.
Particolare attenzione verrà data all'acquisizione delle abilità pratiche, tramite il coinvolgimento nella pianificazione di una ricerca di base nei primi tre anni di corso e la partecipazione a programmi di ricerca nel periodo di internato ai fini della preparazione della tesi di laurea.
I risultati attesi verranno verificati attraverso prove scritte e/o prove orali.
La valutazione degli studenti avverrà anche attraverso verifiche formative in itinere (prove di autovalutazione e colloqui intermedi), relazioni scritte degli studenti su temi assegnati, ed attraverso la valutazione del profilo complessivo elaborato in base a criteri predefiniti.
Le prove d'esame potranno essere articolate (oltre che nelle tradizionali modalità dell'esame orale e/o scritto) anche in una sequenza di items utili a verificare le conoscenze acquisite come i test a scelta multipla o le risposte brevi scritte organizzati su problemi o casi clinici a carattere interdisciplinare, seguiti da esami utili ad accertare le competenze cliniche acquisite.Capacità di apprendimento
Descrittore di Dublino 5 - learning skills
I laureati della Saint Camillus devono aver sviluppato quelle capacità di apprendimento che consentano loro di continuare a studiare per lo più in modo auto-diretto o autonomo.
Tale dimensione assume un valore peculiare in una prospettiva in cui l'operato professionale avverrà prevalentemente in situazioni di estremo disagio e carenze strumentali.
In generale la capacitß di apprendimento dovrà essere coniugata secondo logiche di “management dell'informazione” .
1) Raccogliere, organizzare ed interpretare correttamente l'informazione sanitaria e biomedica dalle diverse risorse e database disponibili.
2) Raccogliere le informazioni specifiche sul paziente dai sistemi di gestione di dati clinici.
3) Utilizzare la tecnologia associata all'informazione e alle comunicazioni come valido supporto alle pratiche diagnostiche, terapeutiche e preventive e per la sorveglianza ed il monitoraggio dello stato di salute.
4) Comprendere l'applicazione e anche le limitazioni della tecnologia dell'informazione.
5) Gestire un buon archivio della propria pratica medica, per una sua successiva analisi e miglioramento.
I risultati attesi verranno conseguiti attraverso la frequenza alle attività formative di base, caratterizzanti e affini, organizzate in corsi integrati specifici tali da garantire la visione unitaria e interdisciplinare degli obiettivi didattici stessi.
Le forme didattiche previste comprendono lezioni frontali, conferenze, seminari, gruppi di discussione.
Il processo d'insegnamento si avvarrà inoltre dei moderni strumenti didattici, costituiti dal sistema tutoriale, dal trigger clinico, dal problem oriented learning, dall'experiencial learning, dal problem solving, dal decision making.
Particolare attenzione verrà data all'acquisizione delle abilità pratiche, tramite il coinvolgimento nella pianificazione di una ricerca di base nei primi tre anni di corso e la partecipazione a programmi di ricerca nel periodo di internato ai fini della preparazione della tesi di laurea.
I risultati attesi verranno verificati attraverso prove scritte e/o prove orali.
La valutazione degli studenti avverrà anche attraverso verifiche formative in itinere (prove di autovalutazione e colloqui intermedi), relazioni scritte degli studenti su temi assegnati, ed attraverso la valutazione del profilo complessivo elaborato in base a criteri predefiniti.
Le prove d'esame potranno essere articolate (oltre che nelle tradizionali modalità dell'esame orale e/o scritto) anche in una sequenza di items utili a verificare le conoscenze acquisite come i test a scelta multipla o le risposte brevi scritte organizzati su problemi o casi clinici a carattere interdisciplinare, seguiti da esami utili ad accertare le competenze cliniche acquisite.Requisiti di ammissione
Possono essere ammessi al corso di laurea magistrale a ciclo unico in Medicina e Chirurgia i candidati che siano in possesso di diploma di scuola secondaria superiore o di altro titolo di studio conseguito all’estero riconosciuto idoneo dalla normativa vigente.
La prova di ammissione è predisposta annualmente dall’Ateneo secondo le modalità e la tempistica indicate dagli organi competenti nel rispetto delle normative vigenti.
E' altresì richiesto il possesso o l'acquisizione di un'adeguata preparazione iniziale.
I regolamenti didattici dei corsi di laurea magistrale a ciclo unico definiscono le conoscenze richieste per l’accesso e ne determinano le modalità di verifica.
Se dalla verifica non risulta il possesso di un livello sufficiente di preparazione, possono essere indicati specifici obblighi formativi aggiuntivi da soddisfare nel primo anno di corso attraverso l’istituzione di attività formative integrative.
Le attività formative propedeutiche ed integrative possono essere svolte anche in collaborazione con istituti di istruzione secondaria o con altri enti pubblici o privati, sulla base di apposite convenzioni.
Prova finale
Lo studente ha la disponibilità di almeno 18 crediti finalizzati alla preparazione della tesi di laurea magistrale.
Per essere ammesso a sostenere l'esame di laurea, lo studente deve aver seguito tutti i corsi ed avere superato i relativi esami.
L'esame di laurea verte sulla discussione di una tesi elaborata in modo originale dallo studente sotto la guida di un relatore; può essere prevista la figura di un docente correlatore.
I docenti relatori di tesi sono professori di prima o seconda fascia o ricercatori o professori a contratto.
Le attività formative per la preparazione della prova finale si svolgeranno nelle strutture indicate in merito alle attività professionalizzanti.
Il Consiglio di Corso di studio stabilisce le norme per la stesura e la presentazione delle tesi.
A determinare il voto di laurea contribuiscono la media dei voti conseguiti negli esami curriculari, la valutazione della tesi in sede di discussione, e l'eventuale valutazione di altre attività con modalità stabilite dal Consiglio di Corso di studio.
Il voto di laurea è espresso in centodecimi.Orientamento in ingresso
La struttura responsabile del servizio di orientamento in ingresso è l’admission office.
Il servizio di orientamento in ingresso offerto ha il compito fondamentale di favorire l'iscrizione ai CdS di studenti in possesso delle conoscenze e delle attitudini necessarie ai fini di una proficua frequentazione dei CdS stessi e di promuovere la consapevolezza della loro scelta, riducendo i rischi di abbandono e di tempi per il conseguimento del titolo di studio superiori a quelli stabiliti dalla normativa.
I principali obiettivi del servizio di orientamento in ingresso possono essere così riassunti:
- fornire una corretta informazione a studenti potenziali, famiglie e scuole, sull'offerta formativa del CdS, finalizzata a favorire la conoscenza del CdS, degli sbocchi per i quali si intendono preparare i laureati, delle sue caratteristiche e dei suoi risultati;
- fornire una corretta informazione sui requisiti di ammissione, con particolare riferimento alle conoscenze minime richieste in ingresso, ai requisiti curriculari e alla preparazione personale richiesti, ma anche sulle principali difficoltà incontrate, come evidenziate dalle carriere degli studenti e, quindi, alle attitudini e all'impegno richiesti per una proficua frequentazione del CdS;
- promuovere il possesso delle conoscenze e/o capacità richieste attraverso idonee attività propedeutiche all’accesso al CdS.
L’Admission office persegue il raggiungimento di tali obiettivi anche attraverso le seguenti iniziative:
- organizzazione di incontri di orientamento presso Istituti Secondari Superiori;
- organizzazione, presso la sede dell'Università, di giornate di presentazione dell'offerta formativa rivolte sia agli studenti che alle loro famiglie;
- partecipazione a manifestazioni fieristiche di orientamento universitario come ad esempio il salone dello studente.
L'azione di orientamento e di reclutamento di studenti internazionale avverrà, inoltre, attraverso l'attivazione di contratti con tutor di area geografica, incaricati di curare la promozione del corso in specifici gruppi di Paesi.
L'Ufficio, tra i suoi compiti, prevede anche lo svolgimento di colloqui individuali di orientamento e di visite guidate dell'Ateneo e fornisce informazioni telefoniche e via mail a tutti gli interessati.
Il Corso di Studio in breve
La missione del Corso di Laurea Magistrale a ciclo unico si identifica con la formazione di un medico con un profilo professionale internazionale, caratterizzato da una visione multidisciplinare ed integrata dei problemi della salute e della malattia, con una educazione orientata alla comunità, al territorio, alle sfide sanitarie mondiali e fondamentalmente alla prevenzione della malattia ed alla promozione della salute e con una cultura umanistica nei suoi risvolti di interesse medico.
Tale missione specifica è centrata non soltanto sulla malattia, ma soprattutto sull'uomo ammalato, considerato nella sua globalità di soma e psiche ed inserito nel contesto sociale.
Gli obiettivi il cui raggiungimento costituisce il bagaglio qualificante il Medico che si intende formare comprendono:
-Buona capacità al contatto umano (communication skills);
-Capacità di autoapprendimento e di autovalutazione (continuing education);
-Abilità ad analizzare e risolvere in piena autonomia i problemi connessi con la pratica medica insieme ad una buona pratica clinica basata sulle evidenze scientifiche (evidence based medicine);
-Abitudine all'aggiornamento costante delle conoscenze e delle abilità, ed il possesso delle basi metodologiche e culturali atte all'acquisizione autonoma ed alla valutazione critica delle nuove conoscenze ed abilità (continuing professional development);
-Buona pratica di lavoro interdisciplinare ed interprofessionale (interprofessional education);
-Conoscenza approfondita dei fondamenti metodologici necessari per un corretto approccio alla ricerca scientifica in campo medico, insieme all'uso autonomo delle tecnologie informatiche indispensabili nella pratica clinica.
SBOCCHI PROFESSIONALI
I laureati in Medicina e Chirurgia svolgeranno l'attività di medico-chirurgo nei vari ruoli ed ambiti professionali clinici, sanitari e biomedici.
Gli sbocchi occupazionali normalmente offerti al laureato magistrale in Medicina e Chirurgia sono rappresentati da:
Scuole di Specializzazione
Dottorato di Ricerca
Ambulatori pubblici e privati
Ospedali e centri specialistici
Università e Centri di ricerca
Medici del territorio
Organizzazioni sanitarie ed umanitarie nazionali ed internazionali
Lo studente espliciterà le proprie scelte al momento della presentazione,
tramite il sistema informativo di ateneo, del piano di completamento o del piano di studio individuale,
secondo quanto stabilito dal regolamento didattico del corso di studio.
FIRST YEAR
First semester
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Scientific Disciplinary Sector Code
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Contact Hours
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Type of Activity
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Language
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90216 -
Chemistry and introductory biochemistry
(objectives)
The main aim of this course is to allow the students to - learn the major chemical and physical principles which govern organism life. The course will further cover the study of the composition of inorganic and organic compounds as well as the reactions they undergo.
These aims will be pursued through interactive frontal lectures, exercise-sessions designed to optimize learning and to maximize the student skill in recognizing and solving a given medicinal chemistry task.
LEARNING OUTCOMES
Knowledge and understanding
The course of general chemistry and introductory biochemistry is aimed at allowing the students to learn the chemical, physical and molecular bases of main principles and laws of molecular chemistry and biochemistry.
At the end of the course the student is expected to become able to identify the composition of inorganic compounds present in nature and how they interact and react with each other during patho-physiological processes in human body. The student is asked to learn the water-based reactions, acid-base theories, and their role in maintaining the homeostasis.
The course is further organized to provide the students the basis of the chemistry of Carbon, i.e. organic chemistry, with a special focus on how organic compounds are structurally arranged and how they react to form the building blocks of life.
Applying knowledge and understanding
The student will learn how to apply the knowledge acquired during the course to the clinical tasks his/her profession is expected to deal with. This will allow the student to recognize critical diagnostic items and prognostic outcomes by deciphering how a given chemical and metabolic alteration turns out into a pathological condition. At the end of the course, the student will be able to apply this knowledge to the specific clinical area he/she will dedicate his/her medical activity.
Communication skills
The student will be asked to be able to discuss orally the subjects which are part of this course syllabus. He/She will be further asked to learn the right scientific terminology.
Making judgements
Specific attention will be paid to let the students improve the critical capacity when studying key chemical processes which underscore metabolic reaction of living organisms with clinical relevance. The students are expected to learn how critical is to bear a solid conceptual knowledge of each specific clinical task.
Learning skills
at the end of the integrated teaching, the student will acquire skills useful to deepen and expand their knowledge in the field of the course, also through the consultation of scientific literature, databases, specialized websites.
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6
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BIO/10
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60
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Basic compulsory activities
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90219 -
Biology and genetics
(objectives)
The integrated course of Biology and Genetics aims to provide students with the functional logic of living systems, with particular attention to the properties and functions of the cell as a basic unit of life. The student will learn the unitary mechanisms that regulate the processes and activities of the cell and the interactions between cells; the principles that govern the biological units diversity, in relation to their structural and functional characteristics, to the modalities of gene expression both within the different districts of a single individual (differentiation), and longitudinally, during evolution.
The fundamental principles of molecular biology and genetics will also be addressed; particular emphasis will be given to aspects useful to students in medicine, such as the cellular and molecular bases of diseases and the effects of drugs on cell structure and function. The Medical Genetics part will provide students the knowledge on the main notions on the inheritance of monogenic, chromosomal and multifactorial diseases. At the end of the course, the student will be able to distinguish the main classes of genetic diseases and to recognize the modes of transmission of hereditary diseases.
Knowledge and understanding:
Knowledge of the fundamentals of molecular and cellular biology:
the student will acquire the general and unitary principles governing living organisms’ functions and behavior, including the mechanisms that operate in the transmission of hereditary traits.
At the end of this course the student will be able to:
- know the principles of classification of living organisms.
- Describe the main characteristics and differences between prokaryotic and eukaryotic cells.
- Know the main cellular compartments and their function.
- Know the general principles of cellular metabolism.
- Know the molecular basis of transmission of hereditary traits.
- Know the molecular basis of gene expression.
- Know the differences between mitosis and meiosis.
- Know the basic mechanisms of cell differentiation.
- Recognize and describe the dysregulation consequences of the main processes operating in the
cell and the molecular bases of the diseases.
- Know the correct genetic terminology.
- Know the main inheritance models of monogenic, chromosomal and multifactorial diseases.
- Know the main biological mechanisms that cause hereditary diseases.
- Reconstruct family pedigrees and calculate disease recurrence.
- Comprehend and use the main kinds of genetic tests properly.
Applying knowledge and understanding:
The general objective of the integrated biology and genetics course is to learn the experimental method and its applications to the study of fundamental biological phenomena. Therefore, the course aims to arouse the ability to perform precise and documented observations and make a correct critical analysis to derive verifiable generalizations. At the end of the course, the student will be able to apply the experimental method to the study of biological processes. Moreover, the student will acquire the tools to understand and explain the molecular and cellular mechanisms that are the basis of diseases. He will also be able to analyse family pedigrees and clinical and molecular genetic data useful for genetic counselling and to calculate disease recurrence risk.
Communication skills:
The student will be able to adequately describe a biological phenomenon by demonstrating that he/she has learned an appropriate scientific language for correct and rigorous communication. He/she will be able to describe the main models of inheritance and the recurrence risk the using a correct genetic terminology.
Making judgements:
At the end of the course, the student will have analyzed and learned the exemplary biology experiments and will be able to develop autonomously the logical procedures and strategies that allow to apply the experimental method, analyze and correctly interpret experimental data. Furthermore, he will have acquired the ability to synthesize and correlate the various topics and to critically use genetic tests for the molecular diagnosis of monogenic and chromosomal diseases or for the evaluation of genetic susceptibility to complex diseases.
Learning skills:
The student will have acquired skills and learning methods suitable for the deepening and improvement of their skills in biology. At the end of the course, the student will have developed the ability to deepen the topics through the consultation of the scientific literature.
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APPLIED BIOLOGY
(objectives)
The integrated course of Biology and Genetics aims to provide students with the functional logic of living systems, with particular attention to the properties and functions of the cell as a basic unit of life. The student will learn the unitary mechanisms that regulate the processes and activities of the cell and the interactions between cells; the principles that govern the biological units diversity, in relation to their structural and functional characteristics, to the modalities of gene expression both within the different districts of a single individual (differentiation), and longitudinally, during evolution.
The fundamental principles of molecular biology and genetics will also be addressed; particular emphasis will be given to aspects useful to students in medicine, such as the cellular and molecular bases of diseases and the effects of drugs on cell structure and function. The Medical Genetics part will provide students the knowledge on the main notions on the inheritance of monogenic, chromosomal and multifactorial diseases. At the end of the course, the student will be able to distinguish the main classes of genetic diseases and to recognize the modes of transmission of hereditary diseases.
Knowledge and understanding:
Knowledge of the fundamentals of molecular and cellular biology:
the student will acquire the general and unitary principles governing living organisms’ functions and behavior, including the mechanisms that operate in the transmission of hereditary traits.
At the end of this course the student will be able to:
- know the principles of classification of living organisms.
- Describe the main characteristics and differences between prokaryotic and eukaryotic cells.
- Know the main cellular compartments and their function.
- Know the general principles of cellular metabolism.
- Know the molecular basis of transmission of hereditary traits.
- Know the molecular basis of gene expression.
- Know the differences between mitosis and meiosis.
- Know the basic mechanisms of cell differentiation.
- Recognize and describe the dysregulation consequences of the main processes operating in the
cell and the molecular bases of the diseases.
- Know the correct genetic terminology.
- Know the main inheritance models of monogenic, chromosomal and multifactorial diseases.
- Know the main biological mechanisms that cause hereditary diseases.
- Reconstruct family pedigrees and calculate disease recurrence.
- Comprehend and use the main kinds of genetic tests properly.
Applying knowledge and understanding:
The general objective of the integrated biology and genetics course is to learn the experimental method and its applications to the study of fundamental biological phenomena. Therefore, the course aims to arouse the ability to perform precise and documented observations and make a correct critical analysis to derive verifiable generalizations. At the end of the course, the student will be able to apply the experimental method to the study of biological processes. Moreover, the student will acquire the tools to understand and explain the molecular and cellular mechanisms that are the basis of diseases. He will also be able to analyse family pedigrees and clinical and molecular genetic data useful for genetic counselling and to calculate disease recurrence risk.
Communication skills:
The student will be able to adequately describe a biological phenomenon by demonstrating that he/she has learned an appropriate scientific language for correct and rigorous communication. He/she will be able to describe the main models of inheritance and the recurrence risk the using a correct genetic terminology.
Making judgements:
At the end of the course, the student will have analyzed and learned the exemplary biology experiments and will be able to develop autonomously the logical procedures and strategies that allow to apply the experimental method, analyze and correctly interpret experimental data. Furthermore, he will have acquired the ability to synthesize and correlate the various topics and to critically use genetic tests for the molecular diagnosis of monogenic and chromosomal diseases or for the evaluation of genetic susceptibility to complex diseases.
Learning skills:
The student will have acquired skills and learning methods suitable for the deepening and improvement of their skills in biology. At the end of the course, the student will have developed the ability to deepen the topics through the consultation of the scientific literature.
|
9
|
BIO/13
|
90
|
-
|
-
|
-
|
Basic compulsory activities
|
ENG |
|
-
MEDICAL GENETICS
(objectives)
The integrated course of Biology and Genetics aims to provide students with the functional logic of living systems, with particular attention to the properties and functions of the cell as a basic unit of life. The student will learn the unitary mechanisms that regulate the processes and activities of the cell and the interactions between cells; the principles that govern the biological units diversity, in relation to their structural and functional characteristics, to the modalities of gene expression both within the different districts of a single individual (differentiation), and longitudinally, during evolution.
The fundamental principles of molecular biology and genetics will also be addressed; particular emphasis will be given to aspects useful to students in medicine, such as the cellular and molecular bases of diseases and the effects of drugs on cell structure and function. The Medical Genetics part will provide students the knowledge on the main notions on the inheritance of monogenic, chromosomal and multifactorial diseases. At the end of the course, the student will be able to distinguish the main classes of genetic diseases and to recognize the modes of transmission of hereditary diseases.
Knowledge and understanding:
Knowledge of the fundamentals of molecular and cellular biology:
the student will acquire the general and unitary principles governing living organisms’ functions and behavior, including the mechanisms that operate in the transmission of hereditary traits.
At the end of this course the student will be able to:
- know the principles of classification of living organisms.
- Describe the main characteristics and differences between prokaryotic and eukaryotic cells.
- Know the main cellular compartments and their function.
- Know the general principles of cellular metabolism.
- Know the molecular basis of transmission of hereditary traits.
- Know the molecular basis of gene expression.
- Know the differences between mitosis and meiosis.
- Know the basic mechanisms of cell differentiation.
- Recognize and describe the dysregulation consequences of the main processes operating in the
cell and the molecular bases of the diseases.
- Know the correct genetic terminology.
- Know the main inheritance models of monogenic, chromosomal and multifactorial diseases.
- Know the main biological mechanisms that cause hereditary diseases.
- Reconstruct family pedigrees and calculate disease recurrence.
- Comprehend and use the main kinds of genetic tests properly.
Applying knowledge and understanding:
The general objective of the integrated biology and genetics course is to learn the experimental method and its applications to the study of fundamental biological phenomena. Therefore, the course aims to arouse the ability to perform precise and documented observations and make a correct critical analysis to derive verifiable generalizations. At the end of the course, the student will be able to apply the experimental method to the study of biological processes. Moreover, the student will acquire the tools to understand and explain the molecular and cellular mechanisms that are the basis of diseases. He will also be able to analyse family pedigrees and clinical and molecular genetic data useful for genetic counselling and to calculate disease recurrence risk.
Communication skills:
The student will be able to adequately describe a biological phenomenon by demonstrating that he/she has learned an appropriate scientific language for correct and rigorous communication. He/she will be able to describe the main models of inheritance and the recurrence risk the using a correct genetic terminology.
Making judgements:
At the end of the course, the student will have analyzed and learned the exemplary biology experiments and will be able to develop autonomously the logical procedures and strategies that allow to apply the experimental method, analyze and correctly interpret experimental data. Furthermore, he will have acquired the ability to synthesize and correlate the various topics and to critically use genetic tests for the molecular diagnosis of monogenic and chromosomal diseases or for the evaluation of genetic susceptibility to complex diseases.
Learning skills:
The student will have acquired skills and learning methods suitable for the deepening and improvement of their skills in biology. At the end of the course, the student will have developed the ability to deepen the topics through the consultation of the scientific literature.
|
1
|
MED/03
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90653 -
Physics and statistics
(objectives)
Aim of the integrated course of Physics and Statistics (Applied Physics, Medical Statistics and Informatics) is to provide students with knowledge on the fundamentals of applied physics, Statistics and Intormatics necessary for their future activity. In particular, the comprehension of physical principles at the base of medical physics and of functioning of medical instrumentation will be addressed.
At the end of the course, the students will know the fundamental concepts of application of the Scientific Method to the study of biomedical phenomena (choice and measure of parameters, evaluation of errors), they will be able to describe physical phenomena of complex systems using suitable mathematical tools, they will know the scientific basis of medical procedures and principles of functioning of the equipment commonly used for diagnostics and therapeutics.
The student should be able to understand the tools and computer concepts that will be useful for their future profession in the medical field and understand the importance of medical statistics in the research methodology in the medical field; - read a basic biomedical scientific article, understanding its structure and critically evaluating methods and results; handle a simple database, with particular reference to clinical medicine; make a descriptive and inferential analysis.
LEARNING OUTCOMES
The specific learning outcomes of the program are coherent with the general provisions of the Bologna Process and the specific provisions of EC Directive 2005/36/EC. They lie within the European Qualifications Framework (Dublin Descriptors) as follows:
1. Knowledge and Understanding :
• Understand the experimental method and learn the use and transformation of measure units.
• Know and understand the proper terminology of physics.
• Know and understand the main physical principles and laws concerning kinetics, dynamics, electricity and magnetism, vibration and waves, radiation, nuclear physics and fluids.
• Apply these concepts to biological and physiological phenomena in living organisms.
• Identify and recognize the physical principles which govern the function of the specific human organs.
• carry out a descriptive analysis of a simple database;
• evaluate the association between variables;
• know the basic principles of correlation and linear regression analysis;
• know and apply frequency and effect measurements;
• explain how statistical inference is applied to biomedical research;
• demonstrate an understanding of probability and its application;
• demonstrate ability to manage data and to draw and present quantitative results effectively, using appropriate tables, figures and summaries
• describe the nature of the sampling variation and the role of the statistical methods in quantifying it, and be able to calculate the confidence limits and evaluate the hypotheses;
• select and use appropriate statistical methods in the analysis of simple data sets;
• interpret and evaluate the results of statistical analyses within a scientific publication;
• present and discuss the results of statistical analyses in a clear, concise and comprehensible way,
• describe the general principles of the calculation of the sample size and power.
2. Applying Knowledge and Understanding
• Apply the principles of physics, informatics and statistics to selected problems and to a variable range of situations.
• Use the tools, methodologies, language and conventions of physics, informatics and statistics to test and communicate ideas and explanations.
3. Communication Skills
• Present the topics verbally in an organized and consistent manner.
• Utilize a proper scientific language coherent with the topic of discussion.
4. Making Judgements
• Recognize the importance of an in-depth knowledge of the topics consistent with a proper medical education.
• Identify the fundamental role of a proper theoretical knowledge of the topic in the clinical practice.
5. Learning skills
at the end of the integrated teaching, the student will acquire skills useful to deepen and expand their knowledge in the field of the course, also through the consultation of scientific literature, databases, specialized websites.
|
|
|
-
Applied Physics
(objectives)
Aim of the integrated course of Physics and Statistics (Applied Physics, Medical Statistics and Informatics) is to provide students with knowledge on the fundamentals of applied physics, Statistics and Intormatics necessary for their future activity. In particular, the comprehension of physical principles at the base of medical physics and of functioning of medical instrumentation will be addressed.
At the end of the course, the students will know the fundamental concepts of application of the Scientific Method to the study of biomedical phenomena (choice and measure of parameters, evaluation of errors), they will be able to describe physical phenomena of complex systems using suitable mathematical tools, they will know the scientific basis of medical procedures and principles of functioning of the equipment commonly used for diagnostics and therapeutics.
The student should be able to understand the tools and computer concepts that will be useful for their future profession in the medical field and understand the importance of medical statistics in the research methodology in the medical field; - read a basic biomedical scientific article, understanding its structure and critically evaluating methods and results; handle a simple database, with particular reference to clinical medicine; make a descriptive and inferential analysis.
LEARNING OUTCOMES
The specific learning outcomes of the program are coherent with the general provisions of the Bologna Process and the specific provisions of EC Directive 2005/36/EC. They lie within the European Qualifications Framework (Dublin Descriptors) as follows:
1. Knowledge and Understanding :
• Understand the experimental method and learn the use and transformation of measure units.
• Know and understand the proper terminology of physics.
• Know and understand the main physical principles and laws concerning kinetics, dynamics, electricity and magnetism, vibration and waves, radiation, nuclear physics and fluids.
• Apply these concepts to biological and physiological phenomena in living organisms.
• Identify and recognize the physical principles which govern the function of the specific human organs.
• carry out a descriptive analysis of a simple database;
• evaluate the association between variables;
• know the basic principles of correlation and linear regression analysis;
• know and apply frequency and effect measurements;
• explain how statistical inference is applied to biomedical research;
• demonstrate an understanding of probability and its application;
• demonstrate ability to manage data and to draw and present quantitative results effectively, using appropriate tables, figures and summaries
• describe the nature of the sampling variation and the role of the statistical methods in quantifying it, and be able to calculate the confidence limits and evaluate the hypotheses;
• select and use appropriate statistical methods in the analysis of simple data sets;
• interpret and evaluate the results of statistical analyses within a scientific publication;
• present and discuss the results of statistical analyses in a clear, concise and comprehensible way,
• describe the general principles of the calculation of the sample size and power.
2. Applying Knowledge and Understanding
• Apply the principles of physics, informatics and statistics to selected problems and to a variable range of situations.
• Use the tools, methodologies, language and conventions of physics, informatics and statistics to test and communicate ideas and explanations.
3. Communication Skills
• Present the topics verbally in an organized and consistent manner.
• Utilize a proper scientific language coherent with the topic of discussion.
4. Making Judgements
• Recognize the importance of an in-depth knowledge of the topics consistent with a proper medical education.
• Identify the fundamental role of a proper theoretical knowledge of the topic in the clinical practice.
5. Learning skills
at the end of the integrated teaching, the student will acquire skills useful to deepen and expand their knowledge in the field of the course, also through the consultation of scientific literature, databases, specialized websites.
|
5
|
FIS/07
|
50
|
-
|
-
|
-
|
Basic compulsory activities
|
ENG |
|
-
Medical Statistics
(objectives)
Aim of the integrated course of Physics and Statistics (Applied Physics, Medical Statistics and Informatics) is to provide students with knowledge on the fundamentals of applied physics, Statistics and Intormatics necessary for their future activity. In particular, the comprehension of physical principles at the base of medical physics and of functioning of medical instrumentation will be addressed.
At the end of the course, the students will know the fundamental concepts of application of the Scientific Method to the study of biomedical phenomena (choice and measure of parameters, evaluation of errors), they will be able to describe physical phenomena of complex systems using suitable mathematical tools, they will know the scientific basis of medical procedures and principles of functioning of the equipment commonly used for diagnostics and therapeutics.
The student should be able to understand the tools and computer concepts that will be useful for their future profession in the medical field and understand the importance of medical statistics in the research methodology in the medical field; - read a basic biomedical scientific article, understanding its structure and critically evaluating methods and results; handle a simple database, with particular reference to clinical medicine; make a descriptive and inferential analysis.
LEARNING OUTCOMES
The specific learning outcomes of the program are coherent with the general provisions of the Bologna Process and the specific provisions of EC Directive 2005/36/EC. They lie within the European Qualifications Framework (Dublin Descriptors) as follows:
1. Knowledge and Understanding :
• Understand the experimental method and learn the use and transformation of measure units.
• Know and understand the proper terminology of physics.
• Know and understand the main physical principles and laws concerning kinetics, dynamics, electricity and magnetism, vibration and waves, radiation, nuclear physics and fluids.
• Apply these concepts to biological and physiological phenomena in living organisms.
• Identify and recognize the physical principles which govern the function of the specific human organs.
• carry out a descriptive analysis of a simple database;
• evaluate the association between variables;
• know the basic principles of correlation and linear regression analysis;
• know and apply frequency and effect measurements;
• explain how statistical inference is applied to biomedical research;
• demonstrate an understanding of probability and its application;
• demonstrate ability to manage data and to draw and present quantitative results effectively, using appropriate tables, figures and summaries
• describe the nature of the sampling variation and the role of the statistical methods in quantifying it, and be able to calculate the confidence limits and evaluate the hypotheses;
• select and use appropriate statistical methods in the analysis of simple data sets;
• interpret and evaluate the results of statistical analyses within a scientific publication;
• present and discuss the results of statistical analyses in a clear, concise and comprehensible way,
• describe the general principles of the calculation of the sample size and power.
2. Applying Knowledge and Understanding
• Apply the principles of physics, informatics and statistics to selected problems and to a variable range of situations.
• Use the tools, methodologies, language and conventions of physics, informatics and statistics to test and communicate ideas and explanations.
3. Communication Skills
• Present the topics verbally in an organized and consistent manner.
• Utilize a proper scientific language coherent with the topic of discussion.
4. Making Judgements
• Recognize the importance of an in-depth knowledge of the topics consistent with a proper medical education.
• Identify the fundamental role of a proper theoretical knowledge of the topic in the clinical practice.
5. Learning skills
at the end of the integrated teaching, the student will acquire skills useful to deepen and expand their knowledge in the field of the course, also through the consultation of scientific literature, databases, specialized websites.
|
4
|
MED/01
|
40
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Information Technology
(objectives)
Aim of the integrated course of Physics and Statistics (Applied Physics, Medical Statistics and Informatics) is to provide students with knowledge on the fundamentals of applied physics, Statistics and Intormatics necessary for their future activity. In particular, the comprehension of physical principles at the base of medical physics and of functioning of medical instrumentation will be addressed.
At the end of the course, the students will know the fundamental concepts of application of the Scientific Method to the study of biomedical phenomena (choice and measure of parameters, evaluation of errors), they will be able to describe physical phenomena of complex systems using suitable mathematical tools, they will know the scientific basis of medical procedures and principles of functioning of the equipment commonly used for diagnostics and therapeutics.
The student should be able to understand the tools and computer concepts that will be useful for their future profession in the medical field and understand the importance of medical statistics in the research methodology in the medical field; - read a basic biomedical scientific article, understanding its structure and critically evaluating methods and results; handle a simple database, with particular reference to clinical medicine; make a descriptive and inferential analysis.
LEARNING OUTCOMES
The specific learning outcomes of the program are coherent with the general provisions of the Bologna Process and the specific provisions of EC Directive 2005/36/EC. They lie within the European Qualifications Framework (Dublin Descriptors) as follows:
1. Knowledge and Understanding :
• Understand the experimental method and learn the use and transformation of measure units.
• Know and understand the proper terminology of physics.
• Know and understand the main physical principles and laws concerning kinetics, dynamics, electricity and magnetism, vibration and waves, radiation, nuclear physics and fluids.
• Apply these concepts to biological and physiological phenomena in living organisms.
• Identify and recognize the physical principles which govern the function of the specific human organs.
• carry out a descriptive analysis of a simple database;
• evaluate the association between variables;
• know the basic principles of correlation and linear regression analysis;
• know and apply frequency and effect measurements;
• explain how statistical inference is applied to biomedical research;
• demonstrate an understanding of probability and its application;
• demonstrate ability to manage data and to draw and present quantitative results effectively, using appropriate tables, figures and summaries
• describe the nature of the sampling variation and the role of the statistical methods in quantifying it, and be able to calculate the confidence limits and evaluate the hypotheses;
• select and use appropriate statistical methods in the analysis of simple data sets;
• interpret and evaluate the results of statistical analyses within a scientific publication;
• present and discuss the results of statistical analyses in a clear, concise and comprehensible way,
• describe the general principles of the calculation of the sample size and power.
2. Applying Knowledge and Understanding
• Apply the principles of physics, informatics and statistics to selected problems and to a variable range of situations.
• Use the tools, methodologies, language and conventions of physics, informatics and statistics to test and communicate ideas and explanations.
3. Communication Skills
• Present the topics verbally in an organized and consistent manner.
• Utilize a proper scientific language coherent with the topic of discussion.
4. Making Judgements
• Recognize the importance of an in-depth knowledge of the topics consistent with a proper medical education.
• Identify the fundamental role of a proper theoretical knowledge of the topic in the clinical practice.
5. Learning skills
at the end of the integrated teaching, the student will acquire skills useful to deepen and expand their knowledge in the field of the course, also through the consultation of scientific literature, databases, specialized websites.
|
3
|
INF/01
|
30
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
Second semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
90654 -
Human Anatomy I
(objectives)
The aim of the course is to provide the student with the knowledge of the essential characteristics, from a cellular and functional point of view (macroscopic and microscopic anatomy) of essential elements of the human body. The locomotor, cardiovascular systems (heart, main vessels), the peripheral nervous system, the oral cavity and the nasal cavity, main anatomical organization of head and neck will be taught. The student will learn information about the anatomy of each system aimed at examining the patient, understanding the clinical symptoms and their evolution during a pathological event. These objectives will be achieved through lectures, practical exercises through the use of anatomical models and interactive software designed to facilitate the understanding and learning of the three-dimensionality of the anatomical structures being studied.
|
10
|
BIO/16
|
100
|
-
|
-
|
-
|
Basic compulsory activities
|
ENG |
|
90655 -
Economy and International Social Politics
(objectives)
Medicine, as well as the health professions, while based on scientific knowledge, is not completely reduced to scientific knowledge: it requires Economic, Historical and Ethical training. In the coming years, medicine and the health professions will be called to new and important challenges such as the realization of the international goals found in the 2030 Agenda for Sustainable Development: 17 Sustainable Development Goals (SDGs/SSGs) and the 169 subgoals, which present improving health as a specific goal 3 but aim to end poverty, fight inequality and social and economic development, climate change, and build peaceful societies by the year 2030. The physician therefore will not only be required to have deep scientific knowledge, but also a broader understanding of the constant links with Economics, Ethics. Indeed, as well pointed out in some recent publications from Stanford University: "...the core moral challenge of health as balancing individual liberties with the advancement of good health outcomes. Consider, for example, how liberties are treated in government policies that fluoridate municipal drinking water or compel people with active, infectious tuberculosis to be treated...".
|
|
|
-
History of Medicine
|
2
|
MED/02
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Applied Economics
|
2
|
SECS-P/06
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Moral Philosophy
|
3
|
M-FIL/03
|
30
|
-
|
-
|
-
|
Related or supplementary learning activities
|
ENG |
|
90281 -
Clinical practice
(objectives)
Knowing the basic rules of hygiene and health education and understanding the role and
dynamics of interaction and communication within the multidisciplinary team, with patients and
with family members. Knowing and detecting vital signs. Knowing the regulations inherent to the biological risk
and the proper use of PPE. Learning the basics of optical microscopy.
|
5
|
|
-
|
-
|
-
|
-
|
Other activities
|
ENG |
|
90669 -
Histology and Embriology
(objectives)
Aim of the integrated course of Histology and Embryology is to provide students with knowledge on the physiological organization and development of cells and tissues. During the Histology lectures fundamentals of cytology are discussed for the full understanding of the organization of tissues and their development. The organization of cells and extracellular matrix and their association in the organization of the different tissues is illustrated and discussed, together with the standard histological procedures, including microscopy approaches (optics, fluorescence and electronics), as a tool for the study of structure and development of the human organism.
|
| 7
|
BIO/17
|
70
|
-
|
-
|
-
|
Basic compulsory activities
|
| 3
|
BIO/17
|
30
|
-
|
-
|
-
|
Attività formative affini ed integrative
|
|
ENG |
SECOND YEAR
First semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
90232 -
Biochemistry
(objectives)
To acquire knowledge on the structure, function and regulation of biological macromolecules. To acquire knowledge of the general mechanisms of regulation of metabolism. To acquire knowledge of the main metabolic pathways and cycles with particular regard to carbohydrate, lipid and amino acid metabolism. Understanding the significance of metabolic alterations in non-physiological conditions (prolonged fasting, physical effort).
To acquire learn basic knowledge on fundamental processes of molecular biology and their regulation, necessary to understand:
The pathogenic mechanisms of diseases
Molecular mechanisms involved in the therapeutic intervention
Biotechnology applications of medical relevance, including the principal methods for the study of nucleic acids and of their application for diagnostic and research purpose.
|
|
|
-
BIOCHEMISTRY
(objectives)
To acquire knowledge on the structure, function and regulation of biological macromolecules. To acquire knowledge of the general mechanisms of regulation of metabolism. To acquire knowledge of the main metabolic pathways and cycles with particular regard to carbohydrate, lipid and amino acid metabolism. Understanding the significance of metabolic alterations in non-physiological conditions (prolonged fasting, physical effort).
To acquire learn basic knowledge on fundamental processes of molecular biology and their regulation, necessary to understand:
The pathogenic mechanisms of diseases
Molecular mechanisms involved in the therapeutic intervention
Biotechnology applications of medical relevance, including the principal methods for the study of nucleic acids and of their application for diagnostic and research purpose.
|
8
|
BIO/10
|
80
|
-
|
-
|
-
|
Basic compulsory activities
|
ENG |
|
-
MOLECULAR BIOLOGY
(objectives)
To acquire knowledge on the structure, function and regulation of biological macromolecules. To acquire knowledge of the general mechanisms of regulation of metabolism. To acquire knowledge of the main metabolic pathways and cycles with particular regard to carbohydrate, lipid and amino acid metabolism. Understanding the significance of metabolic alterations in non-physiological conditions (prolonged fasting, physical effort).
To acquire learn basic knowledge on fundamental processes of molecular biology and their regulation, necessary to understand:
The pathogenic mechanisms of diseases
Molecular mechanisms involved in the therapeutic intervention
Biotechnology applications of medical relevance, including the principal methods for the study of nucleic acids and of their application for diagnostic and research purpose.
|
| 2
|
BIO/11
|
20
|
-
|
-
|
-
|
Basic compulsory activities
|
| 2
|
BIO/11
|
20
|
-
|
-
|
-
|
Attività formative affini ed integrative
|
|
ENG |
|
90234 -
Human anatomy II
(objectives)
It is a fundamental objective of the course to provide the student in Medicine and Surgery with morpho-functional information on the structure of internal organs (Splancnology) and of the Human Nervous System, essential to the practice of basic medicine. Besides the study of the essential morphological characteristics of these systems, the functional correlates at cellular and sub-cellular level must therefore be clarified. The student will have to learn the contents of Splancnology and Neuroanatomy, necessary to face the patient's examination, and to understand symptomatological aspects and their evolution in pathological degeneration.
The student will also have to acquire the knowledge of how the structural organization of the various apparatuses is realized during the course of embryonic development.
The subject will be treated with a systematic and descriptive approach, allowing the student to acquire the anatomical language and to know the multiple elements constituting these parts of the human body in functionally homogeneous apparatuses. The morpho-functional integration between the different apparatuses, and the structural relationships that are realized between them in localized areas of the human body, relevant from the clinical point of view, will instead be treated according to a topographic perspective, also giving notions of radiological anatomy.
|
| 5
|
BIO/16
|
50
|
-
|
-
|
-
|
Basic compulsory activities
|
| 2
|
BIO/16
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
|
ENG |
|
90288 -
Microbiology
(objectives)
Knowledge of the cellular and molecular bases of viral pathogenicity, of the interactions between virus and host, of genetic variability and its implications in chronic and persistent pandemic viral infections, of the mechanisms of onset of major diseases in viral aetiology and of the applications of biotechnology in diagnosis, prophylaxis and antiviral chemotherapy are essential objectives. These objectives will be achieved through frontal lectures, seminars and interactive teaching activities, designed to facilitate learning and improve the ability to address and solve the main questions of Medical Microbiology.
|
|
|
-
Bacteriology
(objectives)
Knowledge of the cellular and molecular bases of viral pathogenicity, of the interactions between virus and host, of genetic variability and its implications in chronic and persistent pandemic viral infections, of the mechanisms of onset of major diseases in viral aetiology and of the applications of biotechnology in diagnosis, prophylaxis and antiviral chemotherapy are essential objectives. These objectives will be achieved through frontal lectures, seminars and interactive teaching activities, designed to facilitate learning and improve the ability to address and solve the main questions of Medical Microbiology.
|
4
|
MED/07
|
40
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Virology
(objectives)
Knowledge of the cellular and molecular bases of viral pathogenicity, of the interactions between virus and host, of genetic variability and its implications in chronic and persistent pandemic viral infections, of the mechanisms of onset of major diseases in viral aetiology and of the applications of biotechnology in diagnosis, prophylaxis and antiviral chemotherapy are essential objectives. These objectives will be achieved through frontal lectures, seminars and interactive teaching activities, designed to facilitate learning and improve the ability to address and solve the main questions of Medical Microbiology.
|
3
|
MED/07
|
30
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Parasitology
(objectives)
Knowledge of the cellular and molecular bases of viral pathogenicity, of the interactions between virus and host, of genetic variability and its implications in chronic and persistent pandemic viral infections, of the mechanisms of onset of major diseases in viral aetiology and of the applications of biotechnology in diagnosis, prophylaxis and antiviral chemotherapy are essential objectives. These objectives will be achieved through frontal lectures, seminars and interactive teaching activities, designed to facilitate learning and improve the ability to address and solve the main questions of Medical Microbiology.
|
1
|
VET/06
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90289 -
Electives
|
1
|
|
10
|
-
|
-
|
-
|
Elective activities
|
ENG |
Second semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
90221 -
Physiology I
(objectives)
The course includes the acquisition by the student of knowledge of the operating principles of the organs that compose the human body, their dynamic integration into apparatus and the understanding of the general mechanisms of homeostatic function control and their variations following physical activity. The course also includes the ability to independently apply the knowledge of organ and system functioning mechanisms to potential functional alteration situations.
|
|
|
-
PHYSIOLOGY
(objectives)
The course includes the acquisition by the student of knowledge of the operating principles of the organs that compose the human body, their dynamic integration into apparatus and the understanding of the general mechanisms of homeostatic function control and their variations following physical activity. The course also includes the ability to independently apply the knowledge of organ and system functioning mechanisms to potential functional alteration situations.
|
9
|
BIO/09
|
90
|
-
|
-
|
-
|
Basic compulsory activities
|
ENG |
|
-
METHODS AND DIDACTIC APPROACHES OF PHYSICAL ACTIVITIES
(objectives)
The course includes the acquisition by the student of knowledge of the operating principles of the organs that compose the human body, their dynamic integration into apparatus and the understanding of the general mechanisms of homeostatic function control and their variations following physical activity. The course also includes the ability to independently apply the knowledge of organ and system functioning mechanisms to potential functional alteration situations.
|
1
|
M-EDF/01
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90233 -
Physiology II
(objectives)
The course aims to provide the knowledge of the fundamental physiological mechanisms of human functions. The course includes the acquisition of knowledge on the operating principles of the organs that compose the human body, and their dynamic integration into apparatus. The course will allow to acquire the ability to independently apply the knowledge of organ and system functioning mechanisms to situations of potential functional alteration. Students will also need to know the main indicators and normal parameters of human physiological functions, and the related measurement methods. These objectives will be achieved through lectures, seminars and interactive teaching activities, aimed at facilitating learning and improving the ability to solve simple physiological problems.
|
|
|
-
PHYSIOLOGY
(objectives)
The course aims to provide the knowledge of the fundamental physiological mechanisms of human functions. The course includes the acquisition of knowledge on the operating principles of the organs that compose the human body, and their dynamic integration into apparatus. The course will allow to acquire the ability to independently apply the knowledge of organ and system functioning mechanisms to situations of potential functional alteration. Students will also need to know the main indicators and normal parameters of human physiological functions, and the related measurement methods. These objectives will be achieved through lectures, seminars and interactive teaching activities, aimed at facilitating learning and improving the ability to solve simple physiological problems.
|
| 5
|
BIO/09
|
50
|
-
|
-
|
-
|
Basic compulsory activities
|
| 4
|
BIO/09
|
40
|
-
|
-
|
-
|
Attività formative affini ed integrative
|
|
ENG |
|
-
METHODS AND DIDACTIC APPROACHES OF SPORTS ACTIVITIES
(objectives)
The course aims to provide the knowledge of the fundamental physiological mechanisms of human functions. The course includes the acquisition of knowledge on the operating principles of the organs that compose the human body, and their dynamic integration into apparatus. The course will allow to acquire the ability to independently apply the knowledge of organ and system functioning mechanisms to situations of potential functional alteration. Students will also need to know the main indicators and normal parameters of human physiological functions, and the related measurement methods. These objectives will be achieved through lectures, seminars and interactive teaching activities, aimed at facilitating learning and improving the ability to solve simple physiological problems.
|
1
|
M-EDF/02
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90235 -
Immunology and immunopathology
(objectives)
The student must learn the general characteristics of antigens, antibodies, cytokines; cells, tissues and
organs of the immune system; the mechanisms of regulation of central and peripheral tolerance; the
components and molecular mechanisms of innate and adaptive immune responses. Furthermore, the
student must learn the main immune mechanisms of pathogenetic relevance, in particular: the
hypersensitivity reactions, the immunodeficiencies, the autoimmune disorders, transplantation and tumor
immunology.
These objectives will be achieved through lectures designed to facilitate learning and improve the ability
to address and resolve the main questions of immunology and immunopathology.
|
4
|
MED/04
|
40
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90252 -
General pathology
(objectives)
The learning objectives of the Course in GENERAL PATHOLOGY are to enable the student to understand the molecular mechanisms of cell damage, the response of the cell and the organism to damage, the biology and molecular basis of the neoplastic transformation, and the causes of human diseases, interpreting the fundamental pathogenetic mechanisms. In addition, we will also introduce basic principles of pathophysiology of the major systems as circulation, hepatobiliary and metabolism. Objectives of the course are also the understanding of basic laboratory techniques; cellular isolation methods; standard molecular biology techniques; correct and efficient storage of biological samples; how to apply diagnostic technologies needed to help the assessment of the diagnosis and prognosis of patient.
|
|
|
-
LABORATORY MEDICINE TECHNICAL SCIENCES
(objectives)
The learning objectives of the Course in GENERAL PATHOLOGY are to enable the student to understand the molecular mechanisms of cell damage, the response of the cell and the organism to damage, the biology and molecular basis of the neoplastic transformation, and the causes of human diseases, interpreting the fundamental pathogenetic mechanisms. In addition, we will also introduce basic principles of pathophysiology of the major systems as circulation, hepatobiliary and metabolism. Objectives of the course are also the understanding of basic laboratory techniques; cellular isolation methods; standard molecular biology techniques; correct and efficient storage of biological samples; how to apply diagnostic technologies needed to help the assessment of the diagnosis and prognosis of patient.
|
2
|
MED/46
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
GENERAL PATHOLOGY
(objectives)
The learning objectives of the Course in GENERAL PATHOLOGY are to enable the student to understand the molecular mechanisms of cell damage, the response of the cell and the organism to damage, the biology and molecular basis of the neoplastic transformation, and the causes of human diseases, interpreting the fundamental pathogenetic mechanisms. In addition, we will also introduce basic principles of pathophysiology of the major systems as circulation, hepatobiliary and metabolism. Objectives of the course are also the understanding of basic laboratory techniques; cellular isolation methods; standard molecular biology techniques; correct and efficient storage of biological samples; how to apply diagnostic technologies needed to help the assessment of the diagnosis and prognosis of patient.
|
6
|
MED/04
|
60
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
THIRD YEAR
First semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
90258 -
Pharmacology
(objectives)
The teaching course aims at the knowledge of the general principles of pharmacokinetics (absorption, distribution, metabolism and elimination/ADME of drugs); of pharmacodynamics (cellular and molecular mechanisms underlying the action of drugs); of main classes of drugs, of their therapeutic uses and adverse effects; of drugs toxicity; of how new drugs are developed, and related experimental clinical studies.
|
| 1
|
BIO/14
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
| 7
|
BIO/14
|
70
|
-
|
-
|
-
|
Core compulsory activities
|
|
ENG |
|
90657 -
Laboratory Medicine
(objectives)
The integrated teaching of Laboratory Medicine is aimed at introducing the student to the logic and tools underlying the execution of the diagnostic tests of the Clinical Biochemistry, Clinical Pathology, Clinical Microbiology, Clinical Parasitology and Rheumatology. At the end of the integrated teaching, the student will be able to apply diagnostic tests in the clinical practice, and to interpret and evaluate their results.
|
|
|
-
Clinical Biochemistry and Clinical Molecular Biochemistry
(objectives)
The integrated teaching of Laboratory Medicine is aimed at introducing the student to the logic and tools underlying the execution of the diagnostic tests of the Clinical Biochemistry, Clinical Pathology, Clinical Microbiology, Clinical Parasitology and Rheumatology. At the end of the integrated teaching, the student will be able to apply diagnostic tests in the clinical practice, and to interpret and evaluate their results.
|
2
|
BIO/12
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Clinical Pathology
(objectives)
The integrated teaching of Laboratory Medicine is aimed at introducing the student to the logic and tools underlying the execution of the diagnostic tests of the Clinical Biochemistry, Clinical Pathology, Clinical Microbiology, Clinical Parasitology and Rheumatology. At the end of the integrated teaching, the student will be able to apply diagnostic tests in the clinical practice, and to interpret and evaluate their results.
|
2
|
MED/05
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Microbiology and Clinical Microbiology
(objectives)
The integrated teaching of Laboratory Medicine is aimed at introducing the student to the logic and tools underlying the execution of the diagnostic tests of the Clinical Biochemistry, Clinical Pathology, Clinical Microbiology, Clinical Parasitology and Rheumatology. At the end of the integrated teaching, the student will be able to apply diagnostic tests in the clinical practice, and to interpret and evaluate their results.
|
| 1
|
MED/07
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
| 1
|
MED/07
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
|
ENG |
|
-
Clinical Parasitology
(objectives)
The integrated teaching of Laboratory Medicine is aimed at introducing the student to the logic and tools underlying the execution of the diagnostic tests of the Clinical Biochemistry, Clinical Pathology, Clinical Microbiology, Clinical Parasitology and Rheumatology. At the end of the integrated teaching, the student will be able to apply diagnostic tests in the clinical practice, and to interpret and evaluate their results.
|
1
|
VET/06
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90658 -
Clinical and Sistematic Medical Surgical Methodology
|
|
|
-
General Surgery
|
2
|
MED/18
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Internal Medicine
|
2
|
MED/09
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90259 -
General Hygiene
(objectives)
Learning objectives of the teaching are concepts of health and illness and their determinants, the strategies and methods of primary and secondary prevention, the knowledge of the mechanisms of infection and transmission of infectious diseases, the systems of disinfection and sterilization and the prophylaxis of infectious diseases, the bases of general, descriptive, analytical and investigative epidemiology, the aims of the health system and organizational models at international, national and local level.
|
| 3
|
MED/42
|
30
|
-
|
-
|
-
|
Core compulsory activities
|
| 3
|
MED/42
|
30
|
-
|
-
|
-
|
Core compulsory activities
|
|
ENG |
|
90290 -
Electives
|
3
|
|
30
|
-
|
-
|
-
|
Elective activities
|
ENG |
Second semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
90656 -
Systematic Pathology I
(objectives)
The learning objectives will provide students with the adequate knowledge about epidemiology, etiology,
pathogenesis, diagnosis, prognosis and treatment of the cardiovascular diseases.
Knowledge of the main diagnostic and / or therapeutic techniques most commonly used in clinical
practice complete the course.
|
|
|
-
Respiratory System Diseases
(objectives)
The learning objectives will provide students with the adequate knowledge about epidemiology, etiology,
pathogenesis, diagnosis, prognosis and treatment of the cardiovascular diseases.
Knowledge of the main diagnostic and / or therapeutic techniques most commonly used in clinical
practice complete the course.
|
2
|
MED/10
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Cardiovascular System Diseases
(objectives)
The learning objectives will provide students with the adequate knowledge about epidemiology, etiology,
pathogenesis, diagnosis, prognosis and treatment of the cardiovascular diseases.
Knowledge of the main diagnostic and / or therapeutic techniques most commonly used in clinical
practice complete the course.
|
3
|
MED/11
|
30
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Chest Surgery
(objectives)
The learning objectives will provide students with the adequate knowledge about epidemiology, etiology,
pathogenesis, diagnosis, prognosis and treatment of the cardiovascular diseases.
Knowledge of the main diagnostic and / or therapeutic techniques most commonly used in clinical
practice complete the course.
|
2
|
MED/21
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Vascular Surgery
(objectives)
The learning objectives will provide students with the adequate knowledge about epidemiology, etiology,
pathogenesis, diagnosis, prognosis and treatment of the cardiovascular diseases.
Knowledge of the main diagnostic and / or therapeutic techniques most commonly used in clinical
practice complete the course.
|
2
|
MED/22
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Heart Surgery
(objectives)
The learning objectives will provide students with the adequate knowledge about epidemiology, etiology,
pathogenesis, diagnosis, prognosis and treatment of the cardiovascular diseases.
Knowledge of the main diagnostic and / or therapeutic techniques most commonly used in clinical
practice complete the course.
|
2
|
MED/23
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90256 -
Systematic pathology II
(objectives)
At the end of this course, students will acquire how to identify the principal diseases of digestive tract and of the liver, how to discriminate among main digestive symptoms and define an appropriate diagnostic flowchart, for differential diagnosis, and how to hypothesize the correct medical management for gastroenterological and liver diseases. Moreover, students will study the physiology of the endocrine system and metabolism. They will analyze the causes and pathophysiological mechanisms of the main diseases of the endocrine system.
In addition, at the end of the program, students will know the main basics about:1) a right approach to renal disease 2) characterization of histological and morphological renal aspects 3) clinical tools and differential diagnosis in renal disease. Finally, the course aims to provide the students with the opportunity to systematically learn the pathological pictures of the genitourinary system. The student will be able to discriminate between the main signs and symptoms in order to identify a correct diagnostic procedure, to set the elements for a differential diagnosis. It will also be necessary to know the current therapeutic protocols.
Finally, this course aims to provide the student with the opportunity to systematically learn the pathological pictures of the genitourinary system. The student will have to be able to discriminate between the main signs and symptoms in order to identify a correct diagnostic procedure, to set the elements for a differential diagnosis. It will also be necessary to know the current therapeutic protocols. At the end of the course the student must be able to: provide the main notions of anatomy, physiology and pathophysiology of the urinary and male genital tract ; develop diagnostic reasoning and therapeutic planning, referring to scientific evidence
|
|
|
-
GASTROENTEROLOGY
(objectives)
At the end of this course, students will acquire how to identify the principal diseases of digestive tract and of the liver, how to discriminate among main digestive symptoms and define an appropriate diagnostic flowchart, for differential diagnosis, and how to hypothesize the correct medical management for gastroenterological and liver diseases. Moreover, students will study the physiology of the endocrine system and metabolism. They will analyze the causes and pathophysiological mechanisms of the main diseases of the endocrine system.
In addition, at the end of the program, students will know the main basics about:1) a right approach to renal disease 2) characterization of histological and morphological renal aspects 3) clinical tools and differential diagnosis in renal disease. Finally, the course aims to provide the students with the opportunity to systematically learn the pathological pictures of the genitourinary system. The student will be able to discriminate between the main signs and symptoms in order to identify a correct diagnostic procedure, to set the elements for a differential diagnosis. It will also be necessary to know the current therapeutic protocols.
Finally, this course aims to provide the student with the opportunity to systematically learn the pathological pictures of the genitourinary system. The student will have to be able to discriminate between the main signs and symptoms in order to identify a correct diagnostic procedure, to set the elements for a differential diagnosis. It will also be necessary to know the current therapeutic protocols. At the end of the course the student must be able to: provide the main notions of anatomy, physiology and pathophysiology of the urinary and male genital tract ; develop diagnostic reasoning and therapeutic planning, referring to scientific evidence
|
| 1
|
MED/12
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
| 1
|
MED/12
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
|
ENG |
|
-
ENDOCRINOLOGY
(objectives)
At the end of this course, students will acquire how to identify the principal diseases of digestive tract and of the liver, how to discriminate among main digestive symptoms and define an appropriate diagnostic flowchart, for differential diagnosis, and how to hypothesize the correct medical management for gastroenterological and liver diseases. Moreover, students will study the physiology of the endocrine system and metabolism. They will analyze the causes and pathophysiological mechanisms of the main diseases of the endocrine system.
In addition, at the end of the program, students will know the main basics about:1) a right approach to renal disease 2) characterization of histological and morphological renal aspects 3) clinical tools and differential diagnosis in renal disease. Finally, the course aims to provide the students with the opportunity to systematically learn the pathological pictures of the genitourinary system. The student will be able to discriminate between the main signs and symptoms in order to identify a correct diagnostic procedure, to set the elements for a differential diagnosis. It will also be necessary to know the current therapeutic protocols.
Finally, this course aims to provide the student with the opportunity to systematically learn the pathological pictures of the genitourinary system. The student will have to be able to discriminate between the main signs and symptoms in order to identify a correct diagnostic procedure, to set the elements for a differential diagnosis. It will also be necessary to know the current therapeutic protocols. At the end of the course the student must be able to: provide the main notions of anatomy, physiology and pathophysiology of the urinary and male genital tract ; develop diagnostic reasoning and therapeutic planning, referring to scientific evidence
|
3
|
MED/13
|
30
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
NEPHROLOGY
(objectives)
At the end of this course, students will acquire how to identify the principal diseases of digestive tract and of the liver, how to discriminate among main digestive symptoms and define an appropriate diagnostic flowchart, for differential diagnosis, and how to hypothesize the correct medical management for gastroenterological and liver diseases. Moreover, students will study the physiology of the endocrine system and metabolism. They will analyze the causes and pathophysiological mechanisms of the main diseases of the endocrine system.
In addition, at the end of the program, students will know the main basics about:1) a right approach to renal disease 2) characterization of histological and morphological renal aspects 3) clinical tools and differential diagnosis in renal disease. Finally, the course aims to provide the students with the opportunity to systematically learn the pathological pictures of the genitourinary system. The student will be able to discriminate between the main signs and symptoms in order to identify a correct diagnostic procedure, to set the elements for a differential diagnosis. It will also be necessary to know the current therapeutic protocols.
Finally, this course aims to provide the student with the opportunity to systematically learn the pathological pictures of the genitourinary system. The student will have to be able to discriminate between the main signs and symptoms in order to identify a correct diagnostic procedure, to set the elements for a differential diagnosis. It will also be necessary to know the current therapeutic protocols. At the end of the course the student must be able to: provide the main notions of anatomy, physiology and pathophysiology of the urinary and male genital tract ; develop diagnostic reasoning and therapeutic planning, referring to scientific evidence
|
2
|
MED/14
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
UROLOGY
(objectives)
At the end of this course, students will acquire how to identify the principal diseases of digestive tract and of the liver, how to discriminate among main digestive symptoms and define an appropriate diagnostic flowchart, for differential diagnosis, and how to hypothesize the correct medical management for gastroenterological and liver diseases. Moreover, students will study the physiology of the endocrine system and metabolism. They will analyze the causes and pathophysiological mechanisms of the main diseases of the endocrine system.
In addition, at the end of the program, students will know the main basics about:1) a right approach to renal disease 2) characterization of histological and morphological renal aspects 3) clinical tools and differential diagnosis in renal disease. Finally, the course aims to provide the students with the opportunity to systematically learn the pathological pictures of the genitourinary system. The student will be able to discriminate between the main signs and symptoms in order to identify a correct diagnostic procedure, to set the elements for a differential diagnosis. It will also be necessary to know the current therapeutic protocols.
Finally, this course aims to provide the student with the opportunity to systematically learn the pathological pictures of the genitourinary system. The student will have to be able to discriminate between the main signs and symptoms in order to identify a correct diagnostic procedure, to set the elements for a differential diagnosis. It will also be necessary to know the current therapeutic protocols. At the end of the course the student must be able to: provide the main notions of anatomy, physiology and pathophysiology of the urinary and male genital tract ; develop diagnostic reasoning and therapeutic planning, referring to scientific evidence
|
3
|
MED/24
|
30
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
APPLIED DIETETICS
(objectives)
At the end of this course, students will acquire how to identify the principal diseases of digestive tract and of the liver, how to discriminate among main digestive symptoms and define an appropriate diagnostic flowchart, for differential diagnosis, and how to hypothesize the correct medical management for gastroenterological and liver diseases. Moreover, students will study the physiology of the endocrine system and metabolism. They will analyze the causes and pathophysiological mechanisms of the main diseases of the endocrine system.
In addition, at the end of the program, students will know the main basics about:1) a right approach to renal disease 2) characterization of histological and morphological renal aspects 3) clinical tools and differential diagnosis in renal disease. Finally, the course aims to provide the students with the opportunity to systematically learn the pathological pictures of the genitourinary system. The student will be able to discriminate between the main signs and symptoms in order to identify a correct diagnostic procedure, to set the elements for a differential diagnosis. It will also be necessary to know the current therapeutic protocols.
Finally, this course aims to provide the student with the opportunity to systematically learn the pathological pictures of the genitourinary system. The student will have to be able to discriminate between the main signs and symptoms in order to identify a correct diagnostic procedure, to set the elements for a differential diagnosis. It will also be necessary to know the current therapeutic protocols. At the end of the course the student must be able to: provide the main notions of anatomy, physiology and pathophysiology of the urinary and male genital tract ; develop diagnostic reasoning and therapeutic planning, referring to scientific evidence
|
2
|
MED/49
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90659 -
Anatomic Pathology I
(objectives)
Knowledge of the role of Anatomic Pathology in all clinical settings
Knowledge of the procedures and the tools for carrying out a macroscopic examination
Understanding of the principles that are the basis of a cytological and histological diagnosis
Students are expected to work towards meeting the following objectives:
• Knowledge and understanding (Dublin 1): To recognize morphological and functional differences between normal and pathological tissues and to understand, from a structural, morphological and functional perspective, the different types of pathological lesions.
• Applying knowledge and understanding (Dublin 2): Students will be able to interpret data originating from a laboratory of histopathology, to apply principles of diagnostic pathology. Students will be able to recognize the morphological characteristic of different pathological tissue and they will be introduced to the modern concept of personalized therapy
• Making judgments (Dublin 3): Students will be able to integrate pathological findings with clinical manifestations of diseases and to understand the mechanisms underlying signs and symptoms of diseases.
• Communication skills (Dublin 4): To become familiar with essential terminology related to human diseases and to the concepts of disease etiology, pathogenesis, morphological characteristics
• Learning skills (Dublin 5): Students will learn the morphological and functional alterations that pathogens and aberrant stimuli can induce in molecules, cells and tissues and their consequences for the entire organism as well as the basic defensive mechanisms in response to them.
The course is divided into two semesters that provide students with specific knowledge and understanding, as detailed below.
• Knowledge of the role of Anatomic Pathology in clinical settings related to organ disease.
• Knowledge of the procedures and the tools for carrying out a macroscopic examination in the above- mentioned clinical settings.
• Knowledge of the pre-analytical and analytical procedure for processing the material in the above- mentioned clinical settings
• Understanding of the principles on which the histological and cytological diagnosis is based in the above-mentioned clinical settings.
|
| 1
|
MED/08
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
| 5
|
MED/08
|
50
|
-
|
-
|
-
|
Core compulsory activities
|
|
ENG |
|
90300 -
Electives
|
3
|
|
30
|
-
|
-
|
-
|
Elective activities
|
ENG |
FOURTH YEAR
First semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
90660 -
Anatomic Pathology II
|
8
|
MED/08
|
80
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90661 -
Systematic Pathology III
(objectives)
Among the aims of the course, there is the understanding of hematopoietic and lymphoid system and its physiopathological disorders. Futhermore, knowledge of the main haematological disorders is also required, such as anemia and clonal hematopoiesis (ARCH, CHIP, ICUS CCUS and IDUS), as well as, oncohematological disorders such as myelodysplastic syndromes, acute and chronic myeloid leukemias, myeloproliferative disorders, lymphoblastic leukemia and lymphoma.
In addition, students will know the main non communicable diseases and the basis of clinical methodology.
Moreover, the aim of the lessons is to give the students the ability to recognize the clinical presentation, epidemiology, course and prognosis of main rheumatic diseases.
Another aim of the course is to provide students the knowledge of microorganism-host interactions and the clinical situations, including infections, infectious diseases, colonization, deriving from this interaction. This course will give also the basics for applying proper diagnostic procedures to identify the presence of microorganisms and their role towards the host. Moreover, the course will introduce the pharmacological properties of the main anti-infective substances, and the proper treatment of the infectious diseases.
During the course, the teacher will introduce the main diseases with an infective etiology, giving the students elements of epidemiology, pathophysiology, differential and laboratory diagnosis, and clinical-therapeutical management. A particular overview of emerging and re-emerging infections will be treated. At the end of the course, the student will also know the principles of the control and prevention of infections in the community and healthcare settings, in a “One Health” approach.
|
|
|
-
Blood diseases
(objectives)
Among the aims of the course, there is the understanding of hematopoietic and lymphoid system and its physiopathological disorders. Futhermore, knowledge of the main haematological disorders is also required, such as anemia and clonal hematopoiesis (ARCH, CHIP, ICUS CCUS and IDUS), as well as, oncohematological disorders such as myelodysplastic syndromes, acute and chronic myeloid leukemias, myeloproliferative disorders, lymphoblastic leukemia and lymphoma.
In addition, students will know the main non communicable diseases and the basis of clinical methodology.
Moreover, the aim of the lessons is to give the students the ability to recognize the clinical presentation, epidemiology, course and prognosis of main rheumatic diseases.
Another aim of the course is to provide students the knowledge of microorganism-host interactions and the clinical situations, including infections, infectious diseases, colonization, deriving from this interaction. This course will give also the basics for applying proper diagnostic procedures to identify the presence of microorganisms and their role towards the host. Moreover, the course will introduce the pharmacological properties of the main anti-infective substances, and the proper treatment of the infectious diseases.
During the course, the teacher will introduce the main diseases with an infective etiology, giving the students elements of epidemiology, pathophysiology, differential and laboratory diagnosis, and clinical-therapeutical management. A particular overview of emerging and re-emerging infections will be treated. At the end of the course, the student will also know the principles of the control and prevention of infections in the community and healthcare settings, in a “One Health” approach.
|
3
|
MED/15
|
30
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Allergology and Immunology
(objectives)
Among the aims of the course, there is the understanding of hematopoietic and lymphoid system and its physiopathological disorders. Futhermore, knowledge of the main haematological disorders is also required, such as anemia and clonal hematopoiesis (ARCH, CHIP, ICUS CCUS and IDUS), as well as, oncohematological disorders such as myelodysplastic syndromes, acute and chronic myeloid leukemias, myeloproliferative disorders, lymphoblastic leukemia and lymphoma.
In addition, students will know the main non communicable diseases and the basis of clinical methodology.
Moreover, the aim of the lessons is to give the students the ability to recognize the clinical presentation, epidemiology, course and prognosis of main rheumatic diseases.
Another aim of the course is to provide students the knowledge of microorganism-host interactions and the clinical situations, including infections, infectious diseases, colonization, deriving from this interaction. This course will give also the basics for applying proper diagnostic procedures to identify the presence of microorganisms and their role towards the host. Moreover, the course will introduce the pharmacological properties of the main anti-infective substances, and the proper treatment of the infectious diseases.
During the course, the teacher will introduce the main diseases with an infective etiology, giving the students elements of epidemiology, pathophysiology, differential and laboratory diagnosis, and clinical-therapeutical management. A particular overview of emerging and re-emerging infections will be treated. At the end of the course, the student will also know the principles of the control and prevention of infections in the community and healthcare settings, in a “One Health” approach.
|
1
|
MED/09
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Rheumatology
(objectives)
Among the aims of the course, there is the understanding of hematopoietic and lymphoid system and its physiopathological disorders. Futhermore, knowledge of the main haematological disorders is also required, such as anemia and clonal hematopoiesis (ARCH, CHIP, ICUS CCUS and IDUS), as well as, oncohematological disorders such as myelodysplastic syndromes, acute and chronic myeloid leukemias, myeloproliferative disorders, lymphoblastic leukemia and lymphoma.
In addition, students will know the main non communicable diseases and the basis of clinical methodology.
Moreover, the aim of the lessons is to give the students the ability to recognize the clinical presentation, epidemiology, course and prognosis of main rheumatic diseases.
Another aim of the course is to provide students the knowledge of microorganism-host interactions and the clinical situations, including infections, infectious diseases, colonization, deriving from this interaction. This course will give also the basics for applying proper diagnostic procedures to identify the presence of microorganisms and their role towards the host. Moreover, the course will introduce the pharmacological properties of the main anti-infective substances, and the proper treatment of the infectious diseases.
During the course, the teacher will introduce the main diseases with an infective etiology, giving the students elements of epidemiology, pathophysiology, differential and laboratory diagnosis, and clinical-therapeutical management. A particular overview of emerging and re-emerging infections will be treated. At the end of the course, the student will also know the principles of the control and prevention of infections in the community and healthcare settings, in a “One Health” approach.
|
2
|
MED/16
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Infectious Diseases
(objectives)
Among the aims of the course, there is the understanding of hematopoietic and lymphoid system and its physiopathological disorders. Futhermore, knowledge of the main haematological disorders is also required, such as anemia and clonal hematopoiesis (ARCH, CHIP, ICUS CCUS and IDUS), as well as, oncohematological disorders such as myelodysplastic syndromes, acute and chronic myeloid leukemias, myeloproliferative disorders, lymphoblastic leukemia and lymphoma.
In addition, students will know the main non communicable diseases and the basis of clinical methodology.
Moreover, the aim of the lessons is to give the students the ability to recognize the clinical presentation, epidemiology, course and prognosis of main rheumatic diseases.
Another aim of the course is to provide students the knowledge of microorganism-host interactions and the clinical situations, including infections, infectious diseases, colonization, deriving from this interaction. This course will give also the basics for applying proper diagnostic procedures to identify the presence of microorganisms and their role towards the host. Moreover, the course will introduce the pharmacological properties of the main anti-infective substances, and the proper treatment of the infectious diseases.
During the course, the teacher will introduce the main diseases with an infective etiology, giving the students elements of epidemiology, pathophysiology, differential and laboratory diagnosis, and clinical-therapeutical management. A particular overview of emerging and re-emerging infections will be treated. At the end of the course, the student will also know the principles of the control and prevention of infections in the community and healthcare settings, in a “One Health” approach.
|
4
|
MED/17
|
40
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90662 -
Internal Medicine and Geriatrics
|
|
|
-
Geriatrics
|
3
|
MED/09
|
30
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Physical Medicine and Rehabilitation
|
1
|
MED/34
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90301 -
Electives
|
1
|
|
10
|
-
|
-
|
-
|
Elective activities
|
ENG |
|
90299 -
Clinical practice
(objectives)
Knowing the basic rules of hygiene and health education and understanding the role and
dynamics of interaction and communication within the multidisciplinary team, with patients and
with family members. Knowing and detecting vital signs. Knowing the regulations inherent to the biological risk
and the proper use of PPE. Learning the basics of optical microscopy.
|
7
|
|
-
|
-
|
-
|
-
|
Other activities
|
ENG |
Second semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
90262 -
Obstetrics and gynecology
(objectives)
To learn the basics of clinical physiopathology (in terms of preventive, diagnostic and therapeutic care), concerning the following topics: reproduction, pregnancy, childbirth and puerperium, and the main organic functional disorders and benign and malignant lesions of the female genital tract and of the breast.
|
5
|
MED/40
|
50
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90263 -
Psychiatry
(objectives)
The integrated course of Psychiatry is aimed at providing the fundamentals of psychopathology and the history of psychiatry and a deep knowledge of pathophysiology, the clinic, the nosographic classification and the treatment of the main psychiatric disorders.
An overview of the organization of territorial psychiatric assistance will also be provided.
Moreover, the degree program trains graduates able to work in public and private institutions, companies and organizations, usually in multidisciplinary teams in science and psychological techniques areas. The educational objectives include the acquisition of systematic and up-to-date knowledge in different sectors of the psychological disciplines, as well as the biological (molecular, metabolic, physiological) and clinical (neurological, psychiatric, neurobiological) ones, that are the basis of knowledge on psychic processes, and of the anthropological, epistemological and ethical disciplines fundamental for the understanding of the cultural and deontological dimension of interventions for the promotion, maintenance and recovery of health and well-being conditions within public and private institutions for individuals at all stages life span. The training curriculum allows the acquisition of operational and applicative skills, including psychodiagnostic and psychological counseling for people suffering from physical and mental, cognitive and emotional disorders, but also of updated tools for communication and information management, experience and professional skills in the field of direct services to individuals, groups, organizations and communities in the specific area of competence and for the exchange of general information.
Graduates will be able to settle within health facilities and psychological, medical and psychiatric services, third sector private agencies and public bodies, in the role of psychologist. Local authorities of Italy and many other Countries are carrying out initiatives which accentuate the importance of health promotion by favoring integrated interventions and demonstrate how the training of clinical psychologist is a recognized requirement in the current cultural, scientific, social and institutional context.
|
|
|
-
PSYCHIATRY
(objectives)
The integrated course of Psychiatry is aimed at providing the fundamentals of psychopathology and the history of psychiatry and a deep knowledge of pathophysiology, the clinic, the nosographic classification and the treatment of the main psychiatric disorders.
An overview of the organization of territorial psychiatric assistance will also be provided.
Moreover, the degree program trains graduates able to work in public and private institutions, companies and organizations, usually in multidisciplinary teams in science and psychological techniques areas. The educational objectives include the acquisition of systematic and up-to-date knowledge in different sectors of the psychological disciplines, as well as the biological (molecular, metabolic, physiological) and clinical (neurological, psychiatric, neurobiological) ones, that are the basis of knowledge on psychic processes, and of the anthropological, epistemological and ethical disciplines fundamental for the understanding of the cultural and deontological dimension of interventions for the promotion, maintenance and recovery of health and well-being conditions within public and private institutions for individuals at all stages life span. The training curriculum allows the acquisition of operational and applicative skills, including psychodiagnostic and psychological counseling for people suffering from physical and mental, cognitive and emotional disorders, but also of updated tools for communication and information management, experience and professional skills in the field of direct services to individuals, groups, organizations and communities in the specific area of competence and for the exchange of general information.
Graduates will be able to settle within health facilities and psychological, medical and psychiatric services, third sector private agencies and public bodies, in the role of psychologist. Local authorities of Italy and many other Countries are carrying out initiatives which accentuate the importance of health promotion by favoring integrated interventions and demonstrate how the training of clinical psychologist is a recognized requirement in the current cultural, scientific, social and institutional context.
|
| 2
|
MED/25
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
| 1
|
MED/25
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
|
ENG |
|
-
CLINICAL PSYCHOLOGY
(objectives)
The integrated course of Psychiatry is aimed at providing the fundamentals of psychopathology and the history of psychiatry and a deep knowledge of pathophysiology, the clinic, the nosographic classification and the treatment of the main psychiatric disorders.
An overview of the organization of territorial psychiatric assistance will also be provided.
Moreover, the degree program trains graduates able to work in public and private institutions, companies and organizations, usually in multidisciplinary teams in science and psychological techniques areas. The educational objectives include the acquisition of systematic and up-to-date knowledge in different sectors of the psychological disciplines, as well as the biological (molecular, metabolic, physiological) and clinical (neurological, psychiatric, neurobiological) ones, that are the basis of knowledge on psychic processes, and of the anthropological, epistemological and ethical disciplines fundamental for the understanding of the cultural and deontological dimension of interventions for the promotion, maintenance and recovery of health and well-being conditions within public and private institutions for individuals at all stages life span. The training curriculum allows the acquisition of operational and applicative skills, including psychodiagnostic and psychological counseling for people suffering from physical and mental, cognitive and emotional disorders, but also of updated tools for communication and information management, experience and professional skills in the field of direct services to individuals, groups, organizations and communities in the specific area of competence and for the exchange of general information.
Graduates will be able to settle within health facilities and psychological, medical and psychiatric services, third sector private agencies and public bodies, in the role of psychologist. Local authorities of Italy and many other Countries are carrying out initiatives which accentuate the importance of health promotion by favoring integrated interventions and demonstrate how the training of clinical psychologist is a recognized requirement in the current cultural, scientific, social and institutional context.
|
2
|
M-PSI/08
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90268 -
Pediatric sciences
(objectives)
The student must acquire knowledge:
1) of the general principles of auxology and adolescentology, of nutrition in the first year of life and
vaccinations
2) of the general principles of neonatology
3) of the general principles of specialist pediatrics
4) of the general principles of infantile neuropsychiatry
5) of the general principles of pediatric and infant surgery.
The student must be able to apply the aforementioned knowledge to the diagnostic, therapeutic and
rehabilitative orientation of the various diseases in relation to age, genetic factors and main comorbidities.
|
|
|
-
GENERAL AND SPECIALIZED PEDIATRICS
(objectives)
The student must acquire knowledge:
1) of the general principles of auxology and adolescentology, of nutrition in the first year of life and
vaccinations
2) of the general principles of neonatology
3) of the general principles of specialist pediatrics
4) of the general principles of infantile neuropsychiatry
5) of the general principles of pediatric and infant surgery.
The student must be able to apply the aforementioned knowledge to the diagnostic, therapeutic and
rehabilitative orientation of the various diseases in relation to age, genetic factors and main comorbidities.
|
| 2
|
MED/38
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
| 2
|
MED/38
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
|
ENG |
|
-
PEDIATRIC SURGERY
(objectives)
The student must acquire knowledge:
1) of the general principles of auxology and adolescentology, of nutrition in the first year of life and
vaccinations
2) of the general principles of neonatology
3) of the general principles of specialist pediatrics
4) of the general principles of infantile neuropsychiatry
5) of the general principles of pediatric and infant surgery.
The student must be able to apply the aforementioned knowledge to the diagnostic, therapeutic and
rehabilitative orientation of the various diseases in relation to age, genetic factors and main comorbidities.
|
3
|
MED/20
|
30
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
PEDIATRIC NEUROPSYCHIATRY
(objectives)
The student must acquire knowledge:
1) of the general principles of auxology and adolescentology, of nutrition in the first year of life and
vaccinations
2) of the general principles of neonatology
3) of the general principles of specialist pediatrics
4) of the general principles of infantile neuropsychiatry
5) of the general principles of pediatric and infant surgery.
The student must be able to apply the aforementioned knowledge to the diagnostic, therapeutic and
rehabilitative orientation of the various diseases in relation to age, genetic factors and main comorbidities.
|
2
|
MED/39
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90264 -
Clinical practice
(objectives)
Knowing the basic rules of hygiene and health education and understanding the role and
dynamics of interaction and communication within the multidisciplinary team, with patients and
with family members. Knowing and detecting vital signs. Knowing the regulations inherent to the biological risk
and the proper use of PPE. Learning the basics of optical microscopy.
|
11
|
|
-
|
-
|
-
|
-
|
Other activities
|
ENG |
FIFTH YEAR
First semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
90663 -
Neurological Sciences
(objectives)
We propose an integrated course aimed at translating from basic to clinical knowledge.
This interdisciplinary course will bridge different subspecialties into an integrated and comprehensive program. By completion of the program, students will have adequate knowledge of the main neurological diseases, their pathophysiology and treatment.
Together with the knowledge of the main neurological diseases (in order to identify and guide therapeutic choices), this course will provide skills: to acquire the basis of neurological semeiotics; to get confidence on instrumental and biochemical diagnostic elements (CSF analysis; imaging interpretation, etc.); to obtain the essential rudiments for understanding the role of genetics and molecular biology in neurological diseases. In additionthe medical students will get the experience able to handle modern neurology, in forms of seminar, dealing with:
I. The evolution of neurology.
II. Neurology in the multi-morbidity of the elderly.
III. Brain death: ethical and legislative aspects.
IV. Is the brain a network? The default systems, the mirror neurons.
V. The neurologist and pandemic infections; from HIV to SARS-2.
VI. Experimental trials and neuroprotective strategies.
|
|
|
-
Neurology
(objectives)
We propose an integrated course aimed at translating from basic to clinical knowledge.
This interdisciplinary course will bridge different subspecialties into an integrated and comprehensive program. By completion of the program, students will have adequate knowledge of the main neurological diseases, their pathophysiology and treatment.
Together with the knowledge of the main neurological diseases (in order to identify and guide therapeutic choices), this course will provide skills: to acquire the basis of neurological semeiotics; to get confidence on instrumental and biochemical diagnostic elements (CSF analysis; imaging interpretation, etc.); to obtain the essential rudiments for understanding the role of genetics and molecular biology in neurological diseases. In additionthe medical students will get the experience able to handle modern neurology, in forms of seminar, dealing with:
I. The evolution of neurology.
II. Neurology in the multi-morbidity of the elderly.
III. Brain death: ethical and legislative aspects.
IV. Is the brain a network? The default systems, the mirror neurons.
V. The neurologist and pandemic infections; from HIV to SARS-2.
VI. Experimental trials and neuroprotective strategies.
|
4
|
MED/26
|
40
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Neurosurgery
(objectives)
We propose an integrated course aimed at translating from basic to clinical knowledge.
This interdisciplinary course will bridge different subspecialties into an integrated and comprehensive program. By completion of the program, students will have adequate knowledge of the main neurological diseases, their pathophysiology and treatment.
Together with the knowledge of the main neurological diseases (in order to identify and guide therapeutic choices), this course will provide skills: to acquire the basis of neurological semeiotics; to get confidence on instrumental and biochemical diagnostic elements (CSF analysis; imaging interpretation, etc.); to obtain the essential rudiments for understanding the role of genetics and molecular biology in neurological diseases. In additionthe medical students will get the experience able to handle modern neurology, in forms of seminar, dealing with:
I. The evolution of neurology.
II. Neurology in the multi-morbidity of the elderly.
III. Brain death: ethical and legislative aspects.
IV. Is the brain a network? The default systems, the mirror neurons.
V. The neurologist and pandemic infections; from HIV to SARS-2.
VI. Experimental trials and neuroprotective strategies.
|
1
|
MED/27
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
Neuroradiology
|
1
|
MED/37
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90266 -
Diseases of musculoskeletal system
(objectives)
The learning objectives of the course is to provide the student the basic principles of the most common trauma and degenerative disorders of the musculoskeletal system. For each disorder condition, the most common clinical signs, the most appropriate imaging techniques to be used and the most appropriate surgical techniques will be described.
|
4
|
MED/33
|
40
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90270 -
Specialistic disciplines
(objectives)
The integrated course of Specialist Disciplines provides elements of the diagnosis and therapy of head and neck pathologies frequently encountered in the clinical practice of general medicine. The course aims at providing useful elements of prevention, diagnosis in order to establish a correct multidisciplinary integration with the specialist.
The training objectives are the understanding of the pathophysiological and etiopathological mechanisms of Oral, ENT and Visual diseases, starting from the anatomical, physiological and etiological topics, to outline the correct diagnostic and therapeutic pathways useful in general practice and in the interaction with specialists. The students will also be able to recognize and treat emergencies in all this specialist disciplines.
|
|
|
-
ORAL DISEASES
(objectives)
The integrated course of Oral Patologies provides elements of the diagnosis of the oro-facial pathologies frequently encountered in the clinical practice of general medicine. The course aims at providing useful elements of prevention, diagnosis in order to establish a correct multidisciplinary integration with the specialist.
The training objectives are the understanding of the basic theory of the discipline. The student needs to acquire knowledge on the clinical practice in order to outline the correct diagnostic pathways and be able to recognize and evaluate emergencies related to the oro-facial district.
|
2
|
MED/28
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
EYE DISEASES
(objectives)
- The knowledge of the anatomy and physiology of the human eye.
- to understand the basic pathophysiologic mechanisms of diseases of the eye
- To perform a thorough anamnesis and discuss the appropriate diagnostic flow-chart
- To name the most relevant therapeutic strategies
|
2
|
MED/30
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
OTOLARINGOLOGY
(objectives)
The integrated course of Otolaryngology provides elements of the diagnosis and therapy of head and neck pathologies frequently encountered in the clinical practice of general medicine, furthermore it aims at providing useful elements multidisciplinary integration with the other course to the sensory organs and more generally to head and neck pathologies.
The training objectives are the understanding of the pathophysiological and etiopathological mechanisms of ENT diseases, starting from the anatomical, physiological and etiological topics, to outline the correct diagnostic and therapeutic pathways useful in general practice and in the interaction with specialists. The students will also be able to recognize and treat ENT emergencies.
|
2
|
MED/31
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90293 -
Clinical practice
|
10
|
|
-
|
-
|
-
|
-
|
Other activities
|
ENG |
Second semester
|
Course
|
Credits
|
Scientific Disciplinary Sector Code
|
Contact Hours
|
Exercise Hours
|
Laboratory Hours
|
Personal Study Hours
|
Type of Activity
|
Language
|
|
90664 -
General Surgery
|
9
|
MED/18
|
90
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90271 -
Dermatology and plastic surgery
|
|
|
-
SEXUALLY TRANSMITTED DISEASES AND SKIN DISEASES
|
3
|
MED/35
|
30
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
-
PLASTIC SURGERY
|
2
|
MED/19
|
20
|
-
|
-
|
-
|
Core compulsory activities
|
ENG |
|
90665 -
Diagnostic Imaging and Radiotherapy
(objectives)
The course aims to present the range of possibilities offered by diagnostic imaging, making the student aware of the possibilities and limitations of techniques and methods, as well as the risks associated with their use, in order to clarify the indications in accordance with the risk/benefit ratio. The student must be able, respecting the risk-benefit ratio, to inform the patient of the best diagnostic process to be followed in the different morbid syndromes, to understand the meaning of the radiological report and its implications, explaining the content to the patient, advising him for any further investigation or carrying him towards the most suitable therapeutic choice. The student must also understand the basic elements of Clinical Radiological Anatomy.
|
| 4
|
MED/36
|
40
|
-
|
-
|
-
|
Core compulsory activities
|
| 1
|
MED/36
|
10
|
-
|
-
|
-
|
Core compulsory activities
|
|
ENG |
|
90294 -
Thesis preparation
|
5
|
|
-
|
-
|
-
|
-
|
Final examination and foreign language test
|
ENG |
|
90295 -
Clinical practice
|
10
|
|
-
|
-
|
-
|
-
|
Other activities
|
ENG |
SIXTH YEAR
First semester
Second semester
