Studying at the University of Verona
Here you can find information on the organisational aspects of the Programme, lecture timetables, learning activities and useful contact details for your time at the University, from enrolment to graduation.
Study Plan
The Study Plan includes all modules, teaching and learning activities that each student will need to undertake during their time at the University.
Please select your Study Plan based on your enrollment year.
1° Year
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2° Year activated in the A.Y. 2021/2022
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3° Year activated in the A.Y. 2022/2023
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Legend | Type of training activity (TTA)
TAF (Type of Educational Activity) All courses and activities are classified into different types of educational activities, indicated by a letter.
Bioengineering and Medical Technology (2020/2021)
Teaching code
4S000244
Credits
8
Coordinator
Language
Italian
Also offered in courses:
- Physics, Statistics, informatic systems - FISICA of the course Bachelor's degree in Orthopaedics Techniques
The teaching is organized as follows:
Learning outcomes
MODULO BIOINGEGNERIA ELETTRONICA E INFORMATICA Obiettivi formativi: Provide an overview of electronic bioengineering with particular reference to biomedical applications and technologies. Learn basic knowledge of the main cardiovascular area diagnostic equipment. Learn the basics of managing medical equipment and devices in the hospital. Learn skills in medical informatics and health information systems. Learn fundamentals of hospital information systems, in particular cardiology. Learn more about digital clinical data security and privacy issues. INDUSTRIAL BIOENGINEERING MODULE Educational objectives: The course aims to acquire the basic physiopathological, surgical and bioengineering concepts (physics, chemistry, fluid dynamics, computational mathematical models) relating to different adult cardiac surgery issues, and in particular regarding 1. Elements of physiopathology and surgery of ischemic heart disease, with notions of bioengineering and fluid dynamics of the different configurations of conduits for myocardial revascularization 2. Anatomy, physiology, and surgery of mitral pathology, bioengineering and computational mathematical models of mitral surgery 3. Left ventricular assistance (elements of pathophysiology, surgery, and bioengineering) 4. Extracorporeal circulation (aspects of pathophysiology, surgery, bioengineering, biochemistry) 5. Bioengineering of biological and mechanical heart valve prostheses 6. Physiopathology and ablative surgery de atrial fibrillation, bioengineering of surgical ablation systems MISURE ELETTRICHE; Educational objectives: To provide an overview of the fundamental electronic components and circuits with particular emphasis on the applications to the equipment used by the laboratory operators and on the detection chain of physical quantities, transduction into electrical quantities, their conversion into digital signal.
Program
ELECTRONIC BIOENGINEERING AND COMPUTER SCIENCE
Objectives: Provide an overview of electronic bioengineering with particular reference to biomedical applications and technologies. Acquire basic knowledge of the main cardiovascular area diagnostic equipment. Learn the basics of managing medical equipment and devices. Acquire skills in medical informatics and health information systems, in particular cardiology. To investigate digital clinical data security and privacy issues.
INDUSTRIAL BIOENGINEERING
Objectives: The course aims to acquire the basic physiopathological, surgical and bioengineering concepts (physics, chemistry, fluid dynamics, computational mathematical models) related to different adult cardiac surgery issues, and in particular regarding: 1. Elements of physiopathology and surgery of ischemic heart disease, with notions of bioengineering and fluid dynamics of the different configurations of conduits for myocardial revascularization 2. Anatomy, physiology, and surgery of mitral disease, bioengineering and computational mathematical models of mitral surgery 3. Left ventricular assist systems (elements of pathophysiology, surgery, and bioengineering) 4. Extracoroporeal circulation system (elements of pathophysiology, surgery, bioengineering, biochemistry) 5. Bioengineering of biological and mechanical heart valve prostheses 6. Pathophysiology and ablative surgery of atrial fibrillation, bioengineering of surgical ablation systems
PHYSICS APPLIED TO MEDICINE AND SURGERY
Objectives: The course is aimed at providing the student with basic physical knowledge, taking into particular consideration those subsequently useful for understanding and deepening biomedical problems.
ELECTRICAL AND ELECTRONIC MEASUREMENTS
Objectives: provide an overview of the fundamental electronic components and circuits with particular emphasis on the references and applications to the equipment used by the laboratory operators and specific emphasis on the detection chain of physical quantities, transduction into electrical quantities, their conversion into digital signal.
Bibliography
| Author | Title | Publishing house | Year | ISBN | Notes |
|---|---|---|---|---|---|
| Dalle lezioni | Appunti dalle lezioni | 2021 | |||
| D. Scannicchio, E. Giroletti | Elementi di Fisica Biomedica | EdiSES | 2015 | ||
| meneghini roberto | Dispense in versione pdf delle lezioni | 2020 |
Examination Methods
Written and / or oral
