Biomaterials for Tissue Engineering.

This volume reviews the published knowledge about bioactive composites, protein scaffolds and hydrogels. Chapters also detail the production parameters and clarify the evaluation protocol for analysis or testing and scaffolding biomaterials. The volume concludes with a summary of applications of por...

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Bibliografische gegevens
Andere auteurs: Razavi, Mehdi
Formaat: Licensed eBooks
Taal:Engels
Gepubliceerd in: Sharjah : Bentham Science Publishers, 2017.
Reeks:Frontiers in Biomaterials.
Online toegang:https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1621954
Inhoudsopgave:
  • CONTENTS
  • FOREWORD
  • PREFACE
  • List of Contributors
  • Synthetic Biopolymers
  • Mahdis Hesami*
  • INTRODUCTION
  • REQUIRED CHARACTERISTICS FOR A SCAFFOLD
  • BIOPOLYMERS
  • Polyesters (Poly (α-Hydroxy-Acid))
  • Polycaprolactone
  • Biodegradation
  • Scaffold Preparation Techniques
  • Application
  • Polycaprolactone Blends: PCL/ Hydrogels
  • Polycaprolactone Copolymers
  • Polyglycolic Acid
  • Biodegradation
  • Application
  • Polylactic Acid
  • Biodegradation
  • Scaffold Preparation Techniques
  • Application
  • Polylactide Copolymers and Composites Poly(lactic-glycolic Acid)
  • Polylactide/ Poly(lactic-glycolic Acid) (PLA/PLGA) Blends
  • Polylactide/ Polycaprolactone (PLA/PCL)
  • Polylactide/ Polyethylene Glycole (PLA/PEG)
  • Polylactide/ Polyhydroxybutyratevalerate (PLA/ PHBV)
  • Hybrid of Poly (Hydroxyl Acids) with Collagen
  • Polyhydroxyalkonates
  • Biodegradation
  • Scaffold Preparation Techniques
  • Application
  • Blends of (Polyhydroxy Alkonate) PHAs: Poly 3-hydroxybutyrate/ Polyethylene Glycol (PHB/PEG)
  • Poly 3-hydroxybutyrate/Poly (lactic-co-caprolactone)(PHB/PLCL)Poly 3-hydroxybutyrate /Poly (3-hydroxyvalerate) (PHB/PHBV)
  • Poly (Propylene Fumarate)
  • Biodegradation
  • Application
  • Polyanhydride
  • Biodegradation
  • Application
  • Polyurethane
  • Biodegradation and Biocompatibility
  • Scaffold Preparation Techniques
  • Application
  • Polyphosphazenes
  • Biodegradation
  • Application
  • Polyorthoesters
  • Biodegradation
  • Application
  • Conductive Polymers: Polypyrrole
  • Scaffold Preparation Techniques
  • Application
  • Polypyrorrole/ Polylactide (PPy/PLA)Polypyrrol/ Polycaprolactone (PPy/PCL)
  • Polyaniline
  • Application
  • Blends of Polyaniline: PANI/ Poly (Hydroxyesters)
  • Polyaniline/Gelatin
  • Polyaniline/Poly (hydroxybutyrate) (PANI/PHB)
  • Hydrogels
  • Biodegradation of Hydrogels
  • Application
  • Poly (Acrylic Acid)
  • Poly (Ethylene Oxide)
  • Alginate/ Polyethylenoxide
  • Poly (Vinyl Alcohol)
  • Poly(vinyl alcohol)PVA Blends: PVA/Chitosan
  • Poly(vinyl alcohol)/Hydroxyapatite (PVA/HA)
  • NANOCOMPOSITES
  • CONCLUDING REMARKS
  • FUTURE RESEARCH
  • Functionalization and Surface ModificationTailoring the Properties of Synthetic Polymer, Importance of Polymer Physics
  • Blending and Thermodynamic Aspects
  • Soft Nanoparticles
  • Biomimetic Strategies
  • CONFLICT OF INTEREST
  • ACKNOWLEDGEMENTS
  • REFERENCES
  • Polymer-Based Biocomposites
  • Yasemin Budama-Kilinc*, Rabia Cakir-Koc, Ilke Kurt, Kubra Gozutok, Busra Ozkan, Burcu Ozkan and Ibrahim Isildak
  • INTRODUCTION
  • IMPORTANCE OF SYNTHETIC POLYMERIC BIOCOMPOSITES (SPBC)
  • SPECIFIC MECHANICAL AND BIOLOGICAL PROPERTIES OF SPBC

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