18787 - Biomaterials

Academic Year 2018/2019

  • Docente: Marco Palanca
  • Credits: 6
  • SSD: ING-IND/34
  • Language: Italian
  • Teaching Mode: Traditional lectures
  • Campus: Cesena
  • Corso: First cycle degree programme (L) in Biomedical Engineering (cod. 0946)

Learning outcomes

Knowledge of the physical, chemical, biological and engineering properties of Biomaterials.

Specific applications of Biomaterials in various bio-medical fields.

Characterization of Biomaterials.

Course contents

  • Introduction and Definitions
  • Panorama of general applications of biomaterials
  • Elements of Design of Biomaterials
  • Definition of Biocompatibility
  • The Frontier of Research: biomimetic materials and tissue engineering
  • Body reaction and response to material implantation
  • Introduction
  • Elements of Biology
  • The tissue healing process
  • Tissue response to material implantation
  • Blood response, hemocompatibility
  • Structure and properties of materials
  • The solid state and chemical bonds in solids
  • The definition of phase
  • Basics of thermodynamics and phase stability
  • Principles of crystallography
  • Order-disorder transitions
  • Defects in solids
  • Structure-property relationships
  • Structural and analytical methodologies for the characterization of biomaterials
  • Mechanical properties
  • Hardness, friction, wear
  • Thermal, electrical and acoustic properties
  • X-ray absorption, density and porosity
  • Bone, enamel and dentine permeability
  • Optical properties
  • Metallic Biomaterials
  • Structure and properties of metals
  • Phase diagrams
  • Stainless steels, CoCr, Titanium alloys, gold and noble metal alloys, NiTi, and Shape Memory Alloys
  • Application of metals
  • Biocorrosion, Pourbaix diagrams
  • Production processes
  • Ceramic Biomaterials
  • Structure and properties of ceramics
  • Bioinert, biodegradable and bioactive ceramics
  • Application of ceramics
  • Carbon
  • Production processes
  • Biominerals
  • Biological tissues
  • Human hard tissues
  • Hydroxyapatites
  • Human soft tissues
  • Collagen and elastin
  • Tissue-derived biomaterials
  • Preparation procedures
  • Synthetic polymers
  • The polymerization processes
  • Structure and texture of polymers
  • Glass transition
  • Thermoplastic and thermohardening polymers
  • Structure property relationships
  • Biocompatibility
  • Production processes
  • Composite biomaterials
  • Prostheses
  • Biocompatibility tests
  • Regulation and trading of biomaterials
    • Readings/Bibliography

    REFERENCE BOOKS AND READING

    C.Di Bello, Biomateriali, Pàtron Editore, Bologna

    R.Pietrabissa, Biomateriali per protesi e organi artificiali, Pàtron Editore, Bologna

    G.Valdrè, U.Valdrè, Misure e complementi di fisica, CLUEB, Bologna

    A.F.von Recum, Handbook of Biomaterials Evaluation, Taylor & Francis, London

    Readings/Bibliography

    C.Di Bello, Biomateriali, Pàtron Editore, Bologna

    R.Pietrabissa, Biomateriali per protesi e organi artificiali, Pàtron Editore, Bologna

    G.Valdrè, U.Valdrè, Misure e complementi di fisica, CLUEB, Bologna

    A.F.von Recum, Handbook of Biomaterials Evaluation, Taylor & Francis, London

    G.Valdrè - Slides and Notes on Biomaterials

    Teaching methods

    Lessons by use of slides

    Assessment methods

    Oral Examination

     

    Teaching tools

    Examples and Seminars

    Office hours

    See the website of Marco Palanca