Insitu magnesium calcium phosphate cements formation: From one pot powders precursors synthesis to in vitro investigations

Calcium phosphate cements are of great interest for researchers and their applications in medical practice expanded. Nevertheless, they have a number of drawbacks including the insufficient level of mechanical properties and low degradation rate. Struvite (MgNH PO ) -based cements, which grew in pop...

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Veröffentlicht in:Bioactive materials 2020-09, Vol.5 (3), p.644-658
Hauptverfasser: Goldberg, M A, Krohicheva, P A, Fomin, A S, Khairutdinova, D R, Antonova, O S, Baikin, A S, Smirnov, V V, Fomina, A A, Leonov, A V, Mikheev, I V, Sergeeva, N S, Akhmedova, S A, Barinov, S M, Komlev, V S
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Sprache:eng
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Zusammenfassung:Calcium phosphate cements are of great interest for researchers and their applications in medical practice expanded. Nevertheless, they have a number of drawbacks including the insufficient level of mechanical properties and low degradation rate. Struvite (MgNH PO ) -based cements, which grew in popularity in recent years, despite their neutral pH and acceptable mechanical performance, release undesirable NH ions during their resorption. This issue could be avoided by replacement of ammonia ions in the cement liquid with sodium, however, such cements have a pH values of 9-10, leading to cytotoxicity. Thus, the main goal of this investigation is to optimize the composition of cements to achieve the combination of desirable properties: neutral pH, sufficient mechanical properties, and the absence of cytotoxicity, applying Na HPO -based cement liquid. For this purpose, cement powders precursors in the CaO-MgO-P O system were synthesized by one-pot process in a wide composition range, and their properties were investigated. The optimal performance was observed for the cements with (Ca + Mg)/P ratio of 1.67, which are characterized by newberyite phase formation during setting reaction, pH values close to 7, sufficient compressive strength up to 22 ± 3 MPa (for 20 mol.% of Mg), dense microstructure and adequate matrix properties of the surface. This set of features make those materials promising candidates for medical applications.
ISSN:2452-199X
DOI:10.1016/j.bioactmat.2020.03.011