The in vivo performance of CaP/PLGA composites with varied PLGA microsphere sizes and inorganic compositions

The in vivo performance of CaP/PLGA composites with varied PLGA microsphere sizes and inorganic compositions

Enrichment of calcium phosphate (CaP) bone substitutes with poly(lactic-co-glycolic acid) (PLGA) microspheres to create porosity overcomes the problem of poor CaP degradation. The degradation of CaP–PLGA composites can be customized by changing the physical and chemical properties of PLGA and/or CaP...

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Bibliographic Details
Published in:Acta biomaterialia Vol. 9; no. 7; pp. 7518 - 7526
Main Authors: Hoekstra, Jan Willem M., Ma, Jinling, Plachokova, Adelina S., Bronkhorst, Ewald M., Bohner, Marc, Pan, Juli, Meijer, Gert J., Jansen, John A., van den Beucken, Jeroen J.J.P.
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-07-2013
Subjects:
Animals
Biomedical materials
Bone Substitutes - analysis
Bone Substitutes - chemical synthesis
Bone Substitutes - therapeutic use
Bone substitution
Bones
Calcium phosphate
Calcium Phosphates - chemistry
Defects
Degradation
Female
Inorganic Chemicals - chemistry
Lactic Acid - chemistry
Mandibular Fractures - pathology
Mandibular Fractures - therapy
Materials Testing
Microspheres
Particle Size
PLGA
Polyglycolic Acid - chemistry
Pore size
Porosity
Pre-clinical
Scaffolds
Surgical implants
Swine
Swine, Miniature
Treatment Outcome
Pre-clinical
Bone substitution
Calcium phosphate
Pore size
PLGA
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Description
Summary:Enrichment of calcium phosphate (CaP) bone substitutes with poly(lactic-co-glycolic acid) (PLGA) microspheres to create porosity overcomes the problem of poor CaP degradation. The degradation of CaP–PLGA composites can be customized by changing the physical and chemical properties of PLGA and/or CaP. However, the effect of the size of dense (solid rather than hollow) PLGA microspheres in CaP has not previously been described. The present study aimed at determining the effect of different dense (i.e. solid) PLGA microsphere sizes (small (S) ∼20μm vs. large (L) ∼130μm) and of CaP composition (CaP with either anhydrous dicalcium phosphate (DCP) or calcium sulphate dihydrate (CSD)) on CaP scaffold biodegradability and subsequent bone in-growth. To this end mandibular defects in minipigs were filled with pre-set CaP–PLGA implants, with autologous bone being used as a control. After 4weeks the autologous bone group outperformed all CaP–PLGA groups in terms of the amount of bone present at the defect site. On the other hand, at 12weeks substantial bone formation was observed for all CaP–PLGA groups (ranging from 47±25% to 62±15%), showing equal amounts of bone compared with the autologous bone group (82±9%), except for CaP with DCP and large PLGA microspheres (47±25%). It was concluded that in the current study design the difference in PLGA microsphere size and CaP composition led to similar results with respect to scaffold degradation and subsequent bone in-growth. Further, after 12weeks all CaP–PLGA composites proved to be effective for bone substitution.
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ISSN:1742-7061
1878-7568
DOI:10.1016/j.actbio.2013.03.007