Literature DB >> 21221732

Formation and properties of magnesium-ammonium-phosphate hexahydrate biocements in the Ca-Mg-PO4 system.

Elke Vorndran1, Andrea Ewald, Frank A Müller, Katharina Zorn, Andreas Kufner, Uwe Gbureck.   

Abstract

Calcium substituted trimagnesium phosphate with the general formula Ca(x)Mg((3-x))(PO(4))(2) (0 < x < 1.5) was synthesized by calcination of powder mixtures with the appropriate stoichiometry and reacted with 3.5 M diammonium hydrogenphosphate solution to form a cementitious matrix of magnesium ammonium phosphate hexahydrate (struvite). The degree of ionic substitution was shown to influence physical cement properties; clinically suitable cement formulations with setting times in the range 5-15 min and compressive strengths of >50 MPa were obtained for x ≤ 0.75 together with a grinding time ≥ 1 h and a powder to liquid ratio ≥ 2.5 g/ml. The cement cytocompatibility was investigated by culturing human osteoblast cell line MG63 on cement surfaces demonstrating pronounced cell growth during 13 days cultivation.

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Year:  2011        PMID: 21221732     DOI: 10.1007/s10856-010-4220-4

Source DB:  PubMed          Journal:  J Mater Sci Mater Med        ISSN: 0957-4530            Impact factor:   3.896


  18 in total

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3.  Mechanical characterization of brushite cements: a Mohr circles' approach.

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4.  Biocompatibility and resorption of a brushite calcium phosphate cement.

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Review 5.  Biological and medical significance of calcium phosphates.

Authors:  Sergey V Dorozhkin; Matthias Epple
Journal:  Angew Chem Int Ed Engl       Date:  2002-09-02       Impact factor: 15.336

6.  Mechanical activation and cement formation of beta-tricalcium phosphate.

Authors:  U Gbureck; O Grolms; J E Barralet; L M Grover; R Thull
Journal:  Biomaterials       Date:  2003-10       Impact factor: 12.479

7.  High-strength resorbable brushite bone cement with controlled drug-releasing capabilities.

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8.  In vitro testing of Advanced JAX Bone Void Filler System: species differences in the response of bone marrow stromal cells to beta tri-calcium phosphate and carboxymethylcellulose gel.

Authors:  S A Clarke; N L Hoskins; G R Jordan; S A Henderson; D R Marsh
Journal:  J Mater Sci Mater Med       Date:  2007-06-12       Impact factor: 3.896

9.  Influence of setting liquid composition and liquid-to-powder ratio on properties of a Mg-substituted calcium phosphate cement.

Authors:  S Pina; S M Olhero; S Gheduzzi; A W Miles; J M F Ferreira
Journal:  Acta Biomater       Date:  2008-12-10       Impact factor: 8.947

10.  Antimicrobial titanium/silver PVD coatings on titanium.

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Journal:  Biomed Eng Online       Date:  2006-03-24       Impact factor: 2.819
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  4 in total

1.  Injectability and mechanical properties of magnesium phosphate cements.

Authors:  Claus Moseke; Vasileios Saratsis; Uwe Gbureck
Journal:  J Mater Sci Mater Med       Date:  2011-09-14       Impact factor: 3.896

2.  Improvement of bioactivity, degradability, and cytocompatibility of biocement by addition of mesoporous magnesium silicate into sodium-magnesium phosphate cement.

Authors:  Yingyang Wu; Xiaofeng Tang; Jie Chen; Tingting Tang; Han Guo; Songchao Tang; Liming Zhao; Xuhui Ma; Hua Hong; Jie Wei
Journal:  J Mater Sci Mater Med       Date:  2015-09-22       Impact factor: 3.896

3.  Degradability, cytocompatibility, and osteogenesis of porous scaffolds of nanobredigite and PCL-PEG-PCL composite.

Authors:  Jun Hou; Donghui Fan; Lingming Zhao; Baoqin Yu; Jiacan Su; Jie Wei; Jung-Woog Shin
Journal:  Int J Nanomedicine       Date:  2016-07-28

4.  Comparison of degradation behavior and osseointegration of 3D powder-printed calcium magnesium phosphate cement scaffolds with alkaline or acid post-treatment.

Authors:  Katharina Kowalewicz; Anja-Christina Waselau; Franziska Feichtner; Anna-Maria Schmitt; Manuel Brückner; Elke Vorndran; Andrea Meyer-Lindenberg
Journal:  Front Bioeng Biotechnol       Date:  2022-09-28
  4 in total

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