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1. Calcium Phosphate Brushite Cements Made of Substituted Tricalcium Phosphate Ca₃(PO₄)₂ and Reinforced with Silicate Glass Fiber

   Abstract

   This work examines the reinforcement of reaction-hardening phosphate materials (phosphate cements) for bone implants based on isomorphically...

   Sh. A. Musoev, A. V. Knotko, Ya. Yu. Filippov in Inorganic Materials: Applied Research

   Article 01 February 2024
   

2. Ultraporous Submicron-Grained β-Ca₃(PO₄)₂-Based Ceramics

   Abstract —

   β-Tricalcium phosphate (β-Ca ₃ (PO ₄ ) ₂ ) based ceramics with a relative density of 20–21%, grain size from 200 to 600 nm, and compressive...

   O. U. Toshev, T. V. Safronova, ... Yu. S. Lukina in Inorganic Materials

   Article 01 November 2022
   

3. Effect of Isomorphous Substitutions in Calcium Triphosphate, Ca₃(PO₄)₂, on the Microstructural and Chemical Properties of Phosphate Cements Prepared from It

   Abstract —

   This paper reports on the preparation and properties of phosphate materials for medical applications: brushite (CaHPO ₄ ·2H ₂ O) or monetite...

   Sh. A. Musoev, A. V. Knotko in Inorganic Materials

   Article 01 April 2023
   

4. Magnesium malate-modified calcium phosphate bone cement promotes the repair of vertebral bone defects in minipigs via regulating CGRP

   Active artificial bone substitutes are crucial in bone repair and reconstruction. Calcium phosphate bone cement (CPC) is known for its...

   Hailiang Xu, Fang Tian, ... Shuaijun Jia in Journal of Nanobiotechnology

   Article Open access 25 June 2024
   

5. Investigation of Brushite Cement Based on α-Tricalcium Phosphate and Its Composite with Polylactic Framework

   Abstract

   Brushite cement based on alpha-tricalcium phosphate (α-TCP) and its composite with polylactide (PL) frame with a Kelvin structure were...

   A. V. Knotko, P. V. Evdokimov, ... A. A. Fomina in Inorganic Materials: Applied Research

   Article 01 March 2019
   

6. Peculiarities of Solubility and Cytocompatibility In Vitro of Bone Cements on the Basis of Calcium Sulfate Containing Phosphate Ions

   Abstract

   Cement materials based on calcium sulfate into which up to 20 mol % of phosphate groups were introduced were obtained in order to improve...

   D. R. Khayrutdinova, M. A. Goldberg, ... V. S. Komlev in Inorganic Materials: Applied Research

   Article 18 February 2022
   

7. Adsorption/desorption studies of norfloxacin on brushite nanoparticles from reverse microemulsions

   Calcium phosphates are used in biomedical materials, such as bone cement, bone replacement material and drug carriers, as they are the major...

   Iván D. Rojas-Montoya, Paola Fosado-Esquivel, ... Jesús Gracia-Mora in Adsorption

   Article 02 July 2019
   

8. Bone Cements Based on Struvite: The Effect of Vancomycin Loading and Assessment of Biocompatibility and Osteoconductive Potentials In Vivo

   Abstract

   In recent years, magnesium calcium phosphate materials have been considered as an alternative to calcium phosphate-based materials in...

   P. A. Krokhicheva, M. A. Gol’dberg, ... V. S. Komlev in Russian Journal of Inorganic Chemistry

   Article 24 August 2021
   

9. Effects of Kinetic Parameters on Initial Setting Time, Microstructure and Mechanical Strength of Volcanic Ash-based Phosphate Inorganic Polymers

   This study assesses the effects of curing temperatures (28 and 60 °C) and P ₂ O ₅ / H ₂ O molar ratio percentages (4 to 12 %) on initial setting time,...

   Bernard Missota Priso Dickson, Joseph Dika Manga, ... Antoine Elimbi in Silicon

   Article 13 May 2021

10. Application of SC-CO₂ in the Technology of the Preparation of Calcium Phosphate Matrices for the Treatment of Septic Purulent Inflammations of Bone Tissues

    Abstract

    Based on carbonate-substituted hydroxyapatite (HAP) containing vancomycin, a method is developed for the preparation of macroporous matrices...

    Yu. S. Lukina, L. V. Panova, ... D. A. Lemenovskii in Russian Journal of Physical Chemistry B

    Article 01 December 2022
    

11. The Coexistence of the Poly(phospho-siloxo) Networks and Calcium Phosphates on the Compressive Strengths of the Acid-Based Geopolymers Obtained at Room Temperature

    This work aims to investigate the coexistence of the poly(phospho-siloxo) networks and calcium phosphates on the compressive strengths of the...

    Hamed I. Riyap, F. Kenne Tazune, ... Claus H. Rüscher in Journal of Inorganic and Organometallic Polymers and Materials

    Article 27 February 2021
    

12. The Creation and Application Outlook of Calcium Phosphate and Magnesium Phosphate Bone Cements with Antimicrobial Properties (Review)

    Abstract

    An overview of the results in the field of creating bone cements based on calcium and magnesium phosphates with antimicrobial properties...

    M. A. Goldberg, V. V. Smirnov, ... V. S. Komlev in Inorganic Materials: Applied Research

    Article 01 January 2021
    

13. Fabrication of a glycerol-citrate polymer coated tricalcium phosphate bone cements: Structural investigation and material properties

    Calcium phosphate cements (CPCs) belong to one of the most prominent biomaterials used for filling and regeneration of hard tissues, however poor...

    T. Sopcak, L. Medvecky, ... M. Faberova in Journal of Polymer Research

    Article 31 May 2021
    

14. Reinforcement of Brushite Cement Based on α-TCP by Rigid Polylactide Framework

    Brushite cement obtained from α-Ca ₃ (PO ₄ ) ₂ and orthophosphoric acid in the presence of Mg(H ₂ PO ₄ ) ₂ with compressive strength of 18 MPa was armored with...

    P. V. Evdokimov, I. V. Fadeeva, ... S. M. Barinov in Inorganic Materials: Applied Research

    Article 01 January 2018

15. Inorganic Materials for Regenerative Medicine

    Abstract —

    Methods that are used in regenerative medicine rely on the inherent ability of living organisms to regenerate their tissue. If the size...

    T. V. Safronova in Inorganic Materials

    Article 17 May 2021
    

16. Calcium-Phosphate X-ray Contrast Cements for Bone Repair

    Abstract

    Calcium phosphate composite cements for bone grafting containing an X-ray contrast agent, (BiO) ₂ CO ₃ , were obtained. Its presence in cement...

    M. A. Medkov, D. N. Grishchenko, ... V. I. Apanasevich in Theoretical Foundations of Chemical Engineering

    Article 01 July 2020
    

17. Ceramic Biomaterials in Advanced Biomedical Applications

    Bone tissue engineering (TE) emerges as an alternative to autografts and allografts for bone repair and regeneration, particularly with recent...

    V. Lalzawmliana, Prasenjit Mukherjee, ... Samit K. Nandi in Functional Biomaterials

    Chapter 2022
    

18. Ceramics in the Ca₂P₂O₇–Ca(PO₃)₂ System Obtained by Annealing of the Samples Made from Hardening Mixtures Based on Calcium Citrate Tetrahydrate and Monocalcium Phosphate Monohydrate

    Abstract

    Calcium phosphate ceramics in the Ca ₂ P ₂ O ₇ –Ca(PO ₃ ) ₂ system was obtained by annealing of hardened samples formed from highly loaded...

    T. V. Safronova, T. B. Shatalova, ... O. U. Toshev in Inorganic Materials: Applied Research

    Article 01 July 2020
    

19. Recent advances in development of electrochemical biosensors for the detection of biogenic amines

    Biogenic amines (BAs) are widely found in food as a consequence of diverse factors including free amino acid availability, microbial production of...

    Sombir Kashyap, Nimisha Tehri, ... Vikas Hooda in 3 Biotech

    Article 08 December 2022
    

20. Fabrication of Fully Artificial Carbonate Apatite Bone Substitutes

    Elder people tend to be bedridden by accidents accompanied by bone fracturesBone Fracture. Therefore, a solution that maintains the quality of life...

    Kanji Tsuru, Michito Maruta, Kunio Ishikawa in Innovative Bioceramics in Translational Medicine II

    Chapter 2022