Characterization of magnesium doped sol-gel biomaterial for bone tissue regeneration: The effect of Mg ion in protein adsorption

Abstract: Magnesium is the fourth most abundant element in the human body with a wide battery of functions in the maintenance of normal cell homeostasis. In the bone, this element incorporates in the hydroxyapatite structure and it takes part in mineral metabolism and regulates osteoclast functions. In this study, sol-gel materials with increasing concentrations of MgCl2 (0.5, 1, and 1.5%) were synthesized and applied onto Ti surfaces as coatings. The materials were first physicochemically characterized. In vitro respon… Show more

“…In vitro inflammatory response to Ca depends on the ion concentration in a material, 20 while Mg generally shows an antiinflammatory activity. 10 Here, the CaMg sol-gel coatings displayed increased TNF-α and TGF-β secretion and gene expression. However, these coatings decreased IL-10 expression in the Mg-dose-dependent manner.…”

“…The individual effects of these two ions on the protein adsorption on implant surfaces have been already examined. 10,20 It has been shown that Ca has a high affinity to proteins involved in coagulation and inflammatory responses, while the addition of Mg increases the material affinity to proteins related to cell adhesion. With these data in mind, designing and analysing a biomaterial to combine the regulatory properties of the two ions was a promising path to follow.…”

“…4,6 Naturally found in the bone, the Mg 2+ is essential for the metabolism of this tissue; it stimulates bone formation and resorption. 4 The Mg ions also enhance cell adhesion 10 via affecting all the cell adhesion machinery 11 and have an anti-inflammatory potential. 12,13 Therefore, the combined effect of these two metal cations might be the modulation of protein adsorption, blood clot formation, cell adhesion and differentiation, thus ensuring the success of the bone regeneration process.…”

The effect of calcium–magnesium mixtures in sol–gel coatings on bone tissue regeneration

“…In vitro inflammatory response to Ca depends on the ion concentration in a material, 20 while Mg generally shows an antiinflammatory activity. 10 Here, the CaMg sol-gel coatings displayed increased TNF-α and TGF-β secretion and gene expression. However, these coatings decreased IL-10 expression in the Mg-dose-dependent manner.…”

“…The individual effects of these two ions on the protein adsorption on implant surfaces have been already examined. 10,20 It has been shown that Ca has a high affinity to proteins involved in coagulation and inflammatory responses, while the addition of Mg increases the material affinity to proteins related to cell adhesion. With these data in mind, designing and analysing a biomaterial to combine the regulatory properties of the two ions was a promising path to follow.…”

“…4,6 Naturally found in the bone, the Mg 2+ is essential for the metabolism of this tissue; it stimulates bone formation and resorption. 4 The Mg ions also enhance cell adhesion 10 via affecting all the cell adhesion machinery 11 and have an anti-inflammatory potential. 12,13 Therefore, the combined effect of these two metal cations might be the modulation of protein adsorption, blood clot formation, cell adhesion and differentiation, thus ensuring the success of the bone regeneration process.…”

The effect of calcium–magnesium mixtures in sol–gel coatings on bone tissue regeneration

“…Shen et al 49 showed that the surface of osteoblastic cells increases with a Mg 2+ concentration up to 8 mM (7.6 mM found at maximum in our study) prior to diminishing which is in accordance with another recent study that depicted the same dependence of the size on Mg 2+ ions, based on the argument that a lot of proteins, proteases, or apolipoproteins are prone to adsorb onto material surfaces in the presence of less than 10 mM Mg 2+ . 63 Likewise, protein adsorption may provide several sites to support cell adhesion and the establishment of focal contacts. Moreover, MC3T3-E1 cells in Mg 1% displayed the polygonal morphology whereas they appeared smaller and spindle-shaped in Mg 1.5%.…”

Deciphering the role of faujasite-type zeolites as a cation delivery platform to sustain the functions of MC3T3-E1 pre-osteoblastic cells

“…17 Proteomics offers powerful tools for analysing complex mixtures of proteins, such as the protein layers formed on biomaterials. 18 Cerqueira et al 19 have studied the protein layers adsorbed onto magnesium-enriched surfaces. Many proteins associated with cell adhesion were found on these surfaces, explaining the improved osteoblast adhesion to these Mg-enriched materials.…”

Insight into the antibacterial mechanism of Cu-enriched sol–gel coatings employing proteomics