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Bioactive Calcium Phosphate-Based Composites for Bone Regeneration
Bioactive Calcium Phosphate-Based Composites for Bone Regeneration
by Sprio, Simone , Dapporto, Massimiliano , Tavoni, Marta , Tampieri, Anna
in Bioceramics / Biocompatibility / Biological activity / Biomedical materials / Bones / Calcium phosphates / Chemical composition / Collagen / Composite materials / Crystal defects / Crystal structure / Fluorides / Hydroxyapatite / Magnesium / Mechanical properties / Morphology / Physiology / Regeneration (physiology) / Stability / Tissue engineering
2021
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Bioactive Calcium Phosphate-Based Composites for Bone Regeneration
by Sprio, Simone , Dapporto, Massimiliano , Tavoni, Marta , Tampieri, Anna
in Bioceramics / Biocompatibility / Biological activity / Biomedical materials / Bones / Calcium phosphates / Chemical composition / Collagen / Composite materials / Crystal defects / Crystal structure / Fluorides / Hydroxyapatite / Magnesium / Mechanical properties / Morphology / Physiology / Regeneration (physiology) / Stability / Tissue engineering
2021
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Bioactive Calcium Phosphate-Based Composites for Bone Regeneration
Bioactive Calcium Phosphate-Based Composites for Bone Regeneration
by Sprio, Simone , Dapporto, Massimiliano , Tavoni, Marta , Tampieri, Anna
in Bioceramics / Biocompatibility / Biological activity / Biomedical materials / Bones / Calcium phosphates / Chemical composition / Collagen / Composite materials / Crystal defects / Crystal structure / Fluorides / Hydroxyapatite / Magnesium / Mechanical properties / Morphology / Physiology / Regeneration (physiology) / Stability / Tissue engineering
2021

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Mohammed Bin Rashid Library /
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Bioactive Calcium Phosphate-Based Composites for Bone Regeneration
Bioactive Calcium Phosphate-Based Composites for Bone Regeneration
Journal Article

Bioactive Calcium Phosphate-Based Composites for Bone Regeneration

Sprio, Simone,
Dapporto, Massimiliano,
Tavoni, Marta,
Tampieri, Anna
2021
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Overview
Calcium phosphates (CaPs) are widely accepted biomaterials able to promote the regeneration of bone tissue. However, the regeneration of critical-sized bone defects has been considered challenging, and the development of bioceramics exhibiting enhanced bioactivity, bioresorbability and mechanical performance is highly demanded. In this respect, the tuning of their chemical composition, crystal size and morphology have been the matter of intense research in the last decades, including the preparation of composites. The development of effective bioceramic composite scaffolds relies on effective manufacturing techniques able to control the final multi-scale porosity of the devices, relevant to ensure osteointegration and bio-competent mechanical performance. In this context, the present work provides an overview about the reported strategies to develop and optimize bioceramics, while also highlighting future perspectives in the development of bioactive ceramic composites for bone tissue regeneration.
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Publisher
MDPI AG
Subject

Bioceramics

/ Biocompatibility

/ Biological activity

/ Biomedical materials

/ Bones

/ Calcium phosphates

/ Chemical composition

/ Collagen

/ Composite materials

/ Crystal defects

/ Crystal structure

/ Fluorides

/ Hydroxyapatite

/ Magnesium

/ Mechanical properties

/ Morphology

/ Physiology

/ Regeneration (physiology)

/ Stability

/ Tissue engineering

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