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3D-Matrix Based on Bioactive Glass and Calcium Phosphates with Controllable Resorption Rate for Bone Tissue Replacement

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A 3D-matrix is obtained on the basis of sintered composite material from bioactive glass and dicalcium phosphate. The effect of the component ratio of the mix and the firing temperature of the blanks on the phase composition, porosity, strength, and dissolution kinetics of sintered samples is determined. It is shown that directed formation is possible in sintered composites of highly resorbable phases. 3D-Modeling is used to obtain a personalized implant.

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References

  1. Yu. S. Lukina, N. V. Sventskaya, P. V. Golikova, et al., “Reaction-bonded bioresorbable composite material,” Steklo Keram., No. 5, 21 – 26 (2013); Yu. S. Lukina, N. V. Sventskaya, P. V. Golikova, et al., “Reaction-bonded bioresorbable composite material,” Glass Ceram., 70(5 – 6), 195 – 199 (2011).

  2. B. I. Beletskii and N. V. Sventskaya, “Silicon in living organisms and new-generation biocomposite materials (review),” Steklo Keram., No. 3, 26 – 31(2009); B. I. Beletskii and N. V. Sventskaya, “Silicon in living organisms and new-generation biocomposite materials (review),” Glass Ceram., 66(3 – 4), 104 – 108 (2009).

  3. N. V. Sventskaya and B. I. Beletskii, “Silicon calcium phosphate biocomposite materials for bone-plastic surgery,” Aktual. Vopr. Innov. Ékonomiki, No. 6, 53 – 64 (2014).

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Authors and Affiliations

  1. D. I. Mendeleev Russian Chemical Technology University, Moscow, Russia

    N. V. Sventskaya, Yu. S. Lukina, D. V. Andreev & S. P. Sivkov

  2. M. V. Lomonosov Moscow State University, Moscow, Russia

    D. S. Larionov

Authors
  1. N. V. Sventskaya
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  2. Yu. S. Lukina
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  3. D. S. Larionov
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  4. D. V. Andreev
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  5. S. P. Sivkov
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Corresponding author

Correspondence to N. V. Sventskaya.

Additional information

Translated from Steklo i Keramika, No. 9, pp. 32 – 38, September, 2016.

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Sventskaya, N.V., Lukina, Y.S., Larionov, D.S. et al. 3D-Matrix Based on Bioactive Glass and Calcium Phosphates with Controllable Resorption Rate for Bone Tissue Replacement. Glass Ceram 73, 342–347 (2017). https://doi.org/10.1007/s10717-017-9886-3

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  • DOI: https://doi.org/10.1007/s10717-017-9886-3

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