4.5 Article

Osteoblast and osteoclast responses to A/B type carbonate-substituted hydroxyapatite ceramics for bone regeneration

期刊

BIOMEDICAL MATERIALS
卷 12, 期 3, 页码 -

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IOP PUBLISHING LTD
DOI: 10.1088/1748-605X/aa69c3

关键词

bioceramics; carbonated hydroxyapatite; bone graft susbtitutes; cell culture; osteoblasts; osteoclasts

资金

  1. French 'Conseil Regional du Limousin'
  2. LabEX SigmaLim [ANR-10-LABX-0074-01]

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The influence of carbonate substitution (4.4 wt%, mixed A/B type) in hydroxyapatite ceramics for bone remodeling scaffolds was investigated by separately. analyzing the response of pre-osteoblasts and osteoclast-like cells. Carbonated hydroxyapatite (CHA) (Ca-9.5(PO4)(5.5)(CO3)(0.5)(OH)(CO3)(0.25)-CHA), mimicking the chemical composition of natural bone mineral, and pure hydroxyapatite (HA) (Ca-10(PO4)(6)(OH)(2)-HA) porous ceramics were processed to obtain a similar microstructure and surface physico-chemical properties (grain size, porosity ratio and pore size, surface roughness and zeta potential). The biological behavior was studied using MC3T3-E1 pre-osteoblastic and RAW264.7 monocyte/macrophage cell lines. Chemical dissolution in the culture media and resorption lacunae produced by osteoclasts occur with bothHAandCHAceramics, butCHAexhibits much higher dissolution and greater bioresorption ability. CHAceramics promoted a significantly higher level of pre-osteoblast proliferation. Osteoblastic differentiation, assessed by qRT-PCR of RUNX2 and COLIA2, and pre-osteoclastic proliferation and differentiation were not significantly different on CHAorHAceramics but cell viability and metabolism were significantly greater onCHAceramics. Thus, the activity of both osteoclast-like and osteoblastic cells was influenced by the carbonate substitution in the apatite structure. Furthermore, CHAshowed a particularly interesting balance between biodegradation, by osteoclasts and chemical dissolution, and osteogenesis through osteoblasts' activity, to stimulate bone regeneration. It is hypothesized that this amount of 4.4 wt% carbonate substitution leads to an adapted concentration of calcium in the fluid surrounding the ceramic to stimulate the activity of cells. These results highlight the superior biological behavior of microporous 4.4 wt% A/BCHAceramics that could beneficially replace the commonly usedHAof biphasic calcium phosphates for future applications in bone tissue engineering.

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