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    Maria Rosaria RIZZO

    Insegnamento di TECNOLOGIE MEDICHE IN CLINICA

    Corso di laurea in INGEGNERIA BIOMEDICA

    SSD: MED/09

    CFU: 3,00

    ORE PER UNITÀ DIDATTICA: 24,00

    Periodo di Erogazione: Secondo Semestre

    Italiano

    Lingua di insegnamento

    ITALIANO

    Contenuti

    Lezione 1: Introduzione alla Neurologia e al Sistema Nervoso
    • Struttura microscopica del SN
    • Struttura e funzioni del sistema nervoso centrale e periferico
    Lezione 2: Principi di Neurofisiologia
    • Potenziale di membrana e potenziali d’azione
    • Trasmissione sinaptica e neurotrasmettitori
    Lezione 3: Malattie Neurologiche e Approcci Diagnostici 1
    • Malattie neurodegenerative (Alzheimer, Parkinson, SLA)
    Lezione 4: Malattie Neurologiche e Approcci Diagnostici 2
    • Malattie infiammatorie del SN
    • Malattie del SNP e del Muscolo
    Lezione 5: Malattie accessuali del SN
    • Cefalee
    • Epilessie
    Lezione 5: Metodiche diagnostiche in neurologia (TC, MRI, PET, EEG, ENMG)
    Lezione 6: Esempi di applicazione di tecniche di bioingegneria per la ricerca sulle patologie neurologiche
    Lezione 7: Applicazioni terapeutiche
    • Stimolazione cerebrale profonda (DBS)
    • Neuroprotesi e sistemi di riabilitazione
    • Tendenze future in neurologia e ingegneria biomedica

    Testi di riferimento

    Medicina interna dalla clinica alla diagnosi - Piccin-Nuova Libraria

    Obiettivi formativi

    Fornire agli studenti una comprensione dei principi fondamentali della neurologia e delle loro applicazioni nell’ingegneria biomedica.

    Prerequisiti

    RISPETTO DELLE PROPEDEUTICITA'

    Metodologie didattiche

    Lezioni frontali

    Metodi di valutazione

    Esami orali

    Programma del corso

    Lezione 1: Introduzione alla Neurologia e al Sistema Nervoso
    • Struttura microscopica del SN
    • Struttura e funzioni del sistema nervoso centrale e periferico
    Lezione 2: Principi di Neurofisiologia
    • Potenziale di membrana e potenziali d’azione
    • Trasmissione sinaptica e neurotrasmettitori
    Lezione 3: Malattie Neurologiche e Approcci Diagnostici 1
    • Malattie neurodegenerative (Alzheimer, Parkinson, SLA)
    Lezione 4: Malattie Neurologiche e Approcci Diagnostici 2
    • Malattie infiammatorie del SN
    • Malattie del SNP e del Muscolo
    Lezione 5: Malattie accessuali del SN
    • Cefalee
    • Epilessie
    Lezione 5: Metodiche diagnostiche in neurologia (TC, MRI, PET, EEG, ENMG)
    Lezione 6: Esempi di applicazione di tecniche di bioingegneria per la ricerca sulle patologie neurologiche
    Lezione 7: Applicazioni terapeutiche
    • Stimolazione cerebrale profonda (DBS)
    • Neuroprotesi e sistemi di riabilitazione
    • Tendenze future in neurologia e ingegneria biomedica

    English

    Teaching language

    Italian

    Contents

    Principal internal and geriatric diseases and the technology necessary for diagnosis and treatment

    Textbook and course materials

    Medicina interna dalla clinica alla diagnosi - Piccin-Nuova Libraria

    Course objectives

    To provide a solid basis for understanding the main pathologies of internal medicine relevance in order to be able to conceive, plan, design and apply new advanced technologies in internal medicine and geriatrics, improving the diagnosis, treatment and management of internal medicine pathologies.

    Prerequisites

    RESPECT FOR PROPEDEUTICAL REQUIREMENTS

    Teaching methods

    FRONTAL LESSONS

    Evaluation methods

    Oral examination

    Course Syllabus

    INTERNAL MEDICINE AND ROLE OF TECHNOLOGY
    • Internal Medicine: definition and main areas
    • The role of medical technologies in the diagnosis and treatment of internal medicine diseases
    • Preventive medicine and early diagnosis, screening tools, and genetic tests

    GERIATRICS AND ITS PECULIARITIES

    MEDICAL IMAGING
    • Ultrasound
    • Radiography (X-ray)
    • Computed Tomography (CT)
    • PET
    • Magnetic Resonance Imaging (MRI)

    CARDIOVASCULAR SYSTEM AND ROLE OF MEDICAL TECHNOLOGIES
    • Notes on the anatomy and physiology of the cardiovascular system
    • Main cardiovascular diseases

    • Diagnostic devices for cardiac diseases
    - ECG
    - Echocardiography
    - Cardiac and blood pressure Holter
    - HRV
    - Stress test with treadmill or cycle ergometer
    - Myocardial scintigraphy
    - Cardio-CT and cardiac magnetic resonance imaging

    • Therapeutic devices for cardiac diseases
    - Pacemaker
    - Implantable cardioverter defibrillator (ICD)
    - CRT (Cardiac Resynchronization Therapy)
    - Coronary stents
    - Transcatheter heart valves (TAVI/TAVR)
    - Cardiac ablators
    - Ventricular assist pumps (VAD)

    • Remote monitoring devices for cardiac pathologies
    - Cardiac telemetry
    - Wearable devices: Smartwatch and loop recorder

    RESPIRATORY SYSTEM AND ROLE OF MEDICAL TECHNOLOGIES
    • Notes of anatomy and physiology of the respiratory system
    • Main respiratory pathologies

    • Diagnostic devices for lung pathology
    - Spirometer
    - Plethysmography
    - Pulse oximeter
    - DLCO

    • Therapeutic devices for lung pathology
    - Mechanical ventilators
    - CPAP and BiPAP

    DIABETES AND ROLE OF MEDICAL TECHNOLOGIES
    • Diabetes: diagnosis and therapy

    • Diagnostic and therapeutic devices for the patient diabetic
    - Glucose meter
    - Continuous glucose monitoring systems (CGM)
    - Insulin pumps
    - Telemedicine in diabetic patients and beyond

    GASTROINTESTINAL SYSTEM AND ROLE OF MEDICAL TECHNOLOGIES
    • Notes on anatomy and physiology of the gastrointestinal system
    • Main gastrointestinal diseases

    • Diagnostic and therapeutic devices for gastrointestinal pathology
    - Esophagogastroduodenoscopy and colonoscopy
    - Capsule endoscopy

    URINARY SYSTEM AND ROLE OF MEDICAL TECHNOLOGIES
    • Notes on anatomy and physiology of the urinary system
    • The main renal diseases

    • Diagnostic and therapeutic devices for the urinary system
    - Urine analysis
    - Renal scintigraphy
    - Dialysis

    LOCOMOTOR SYSTEM AND ROLE OF MEDICAL TECHNOLOGIES
    • Notes on anatomy and physiology of the musculoskeletal system
    •Main bone pathologies

    • Physical therapies and motor rehabilitation
    - Laser therapy, tecar therapy and magnetotherapy
    - Rehabilitation robots and exoskeletons

    SURGERY AND ROLE OF MEDICAL TECHNOLOGIES
    • Technologies in surgical practice
    - Laparoscopic and endoscopic surgery
    - Robotic surgery: use of surgical robots (e.g. Da Vinci system) for more precise and less invasive interventions

    • Looking to the future
    - Personalized medicine, AI, and machine learning

    Clinical Data Management: The paper and computerized medical record
    Remote Patient Monitoring
    Augmented and Virtual Reality (AR/VR):
    Digital Twins

    Evaluation of the Clinical Effectiveness of Medical Technologies in the Clinic:
    Clinical Studies and Systematic Reviews

    Comparative Evaluation of Medical Technologies in the Clinic
    Organizational and Social Impact of Medical Technologies in the Clinic
    Social Considerations

    Ethical and Legal Aspects of Medical Technologies in the Clinic
    Regulatory Compliance.

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