This study concerns the synthesis of gel materials based on carbon nanotubes dispersed strontium-modified hydroxyapatite(Sr-HA)at different compositions obtained by sol–gel technology and their influence on human-bon...This study concerns the synthesis of gel materials based on carbon nanotubes dispersed strontium-modified hydroxyapatite(Sr-HA)at different compositions obtained by sol–gel technology and their influence on human-bone-marrow-derived mesenchymal stem cells.Furthermore,an evaluation of the influence of nanotubes and Strontium on physico-chemical,morphological,rheological and biological properties of hydroxyapatite gel was also performed.Morphological analysis(scanning electron microscopy)shows a homogeneous distribution of modified nanotubes in the ceramic matrix improving the bioactive properties of materials.The biological investigations proved that Sr-HA/carbon nanotube gel containing 0–20 mol(%)of Sr showed no toxic effect and promote the expression of early and late markers of osteogenic differentiation in cell culture performed in basal medium without osteogenic factors.Finally,the SrHA/carbon nanotube gels could have a good potential application as filler in bone repair and regeneration and may be used in the osteoporotic disease treatment.展开更多
基金supported through funds provided by the PNR-CNR Aging Program 2012-2014.
文摘This study concerns the synthesis of gel materials based on carbon nanotubes dispersed strontium-modified hydroxyapatite(Sr-HA)at different compositions obtained by sol–gel technology and their influence on human-bone-marrow-derived mesenchymal stem cells.Furthermore,an evaluation of the influence of nanotubes and Strontium on physico-chemical,morphological,rheological and biological properties of hydroxyapatite gel was also performed.Morphological analysis(scanning electron microscopy)shows a homogeneous distribution of modified nanotubes in the ceramic matrix improving the bioactive properties of materials.The biological investigations proved that Sr-HA/carbon nanotube gel containing 0–20 mol(%)of Sr showed no toxic effect and promote the expression of early and late markers of osteogenic differentiation in cell culture performed in basal medium without osteogenic factors.Finally,the SrHA/carbon nanotube gels could have a good potential application as filler in bone repair and regeneration and may be used in the osteoporotic disease treatment.
