Bioceramics : advances in applications and research / Micheal B. Heidelberg, editor.

Format:

Book

Contributor:

Heidelberg, Micheal B., editor.

Series:

Materials science and technologies series.

Materials science and technologies series

Language:

English

Subjects (All):

Biomedical engineering.

Ceramics in medicine.

Biomedical materials.

Physical Description:

1 online resource (208 pages)

Place of Publication:

New York, NY : Nova Science Publishers, Inc., [2022]

Summary:

"Bioceramics refers to materials that are used for repairing or replacing damaged bone tissues. This book contains four chapters that review bioceramics from a variety of perspectives. Chapter one provides salient information on the structure and properties of several calcium orthophosphates designed and used in a wide range of medical applications. Chapter two presents a detailed review of studies of isomorphic substitutions and morphotropic transformations in compounds with the crystal structure of apatite. Chapter three discusses the source, manufacturing methods and advantages of using calcium orthophosphates scaffolds for bone tissue engineering applications. Lastly, Chapter four focuses on the preparation and characterization of beta-calcium pyrophosphate macroporous scaffolds from avian eggshell waste by using the polymer replication method"-- Provided by publisher.

Contents:

Intro

Contents

Preface

Chapter 1

Calcium Orthophosphate Bioceramics: Structure, Properties, and Biomedical Performance Requirements

Abstract

Introduction

Need for Calcium Orthophosphate Coatings

A Short History of Calcium Orthophosphates

CaO-P2O5 Phase Diagram

Structure and Properties of Calcium Orthophosphates

Sparingly Soluble Calcium Orthophosphates: Hydroxylapatite

Substituted Hydroxylapatite

Carbonate Substitution

Strontium Substitution

Silver Substitution

Other Substitutions

Resorbable Calcium Orthophosphates

Tricalcium Phosphates (TCP)

Tetracalcium Phosphate (TTCP)

Ca-PO4 Sheet Structures

Monetite

Calcium Alkali Orthophosphates (CAOP)

Octacalcium Phosphate (OCP)

Amorphous Calcium Phosphates (ACPs)

Transition Metal-Substituted Calcium Hexaorthophosphates

Summary of Crystallographic Structures

Hydroxylapatite Coatings

Thermal Decomposition of Hydroxylapatite during Plasma Spraying

Does Oxyapatite Exist as a Stable Compound?

Biomedical Performance

Advantages of Hydroxylapatite Coatings Applied to Biomedical Implants

Interaction of Calcium Orthophosphate Bioceramics with Living Matter

Organization at Molecular Level

Organization at Tissue Level

Tricalcium Phosphate

Tetracalcium Phosphate

Biphasic Calcium Phosphates (BCP)

Hybrid Calcium Orthophosphate-Polymer Nanocomposites

Conclusion

References

Chapter 2

Crystal-Chemical and Thermodynamic

Aspects of Isomorphic Substitutions in Bioceramic Materials

Basic Terms

Crystal Structure of Apatite Compounds

Literature Review

Substitution of L-anions

Substitutions of the AO4 Group (in Particular for the Phosphate Ion).

Substitution of M-Cations (for Calcium)

Methods

X-Ray Fluorescence Analysis

X-Ray Diffraction Methods

High Temperature X-Ray Diffraction Method

Scanning Electron Microscopy

Standard MTT Test

Thermodynamic Modeling of Isomorphic Replacements

Results and Discussion

Isomorphism and Biocompatibility of Compounds in the Ca10-2xBixNax(PO4)6F2 (x = 0,1,2,3,4,5) System

Morphotropic Transition in Ca8Bi2(PO4)6O2-Pb8Bi2(PO4)6O2 System of Solid Solutions

Thermodynamic Modeling of Integration of Strontium into Bone Tissue Hydroxyapatite

Acknowledgments

Chapter 3

Calcium Orthophosphate (CaPO4)

Bioceramics in Tissue Engineering

1. Introduction

2. Tissue Engineering

3. Scaffolds and Their Properties

4. Bioceramics of CaPO4

5. Scaffolds from CaPO4

6. A Clinical Experience

Chapter 4

Preparation of Macroporous Scaffolds Based on Nano-Sized β-Calcium Pyrophosphate Powder Derived of Avian Eggshell

Waste for Use in Bone Tissue Engineering

Experimental Details

Materials

Bibliography

Index

Blank Page.

Notes:

Description based on print version record.

Includes bibliographical references and index.

Other Format:

Print version: Heidelberg, Micheal B. Bioceramics: Advances in Applications and Research

ISBN:

9798886971378