Bioceramics Based on β-Calcium Pyrophosphate

Сафронова, Т. В.; Киселев, А.С.; Селезнева, И. И.; Шаталова, Т. Б.; Lukina, Yulia; Filippov, Ya. Yu.; Toshev, Otabek; Тихонова, С. А.; Антонова, О. С.; Knotko, A.V.

doi:10.3390/ma15093105

Cited by 11 publications

(6 citation statements)

References 49 publications

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“…The calcium pyrophosphate (CPP, Ca 2 P 2 O 7 ) ceramic is an attractive and prospective object for investigation due to the molar ratio Ca/P = 1 and values of pH close to neutral (pH ~7) during immersion in water [120], which were confirmed by dynamic studies in this direction [120][121][122][123][124][125][126][127].…”

Section: Calcium Pyrophosphate/bioglass 45s5 Compositesmentioning

confidence: 95%

“…The CPP has several polymorphs [70]: amorphous-CPP, which is formed at 240-450 • C; γ-CPP, which is formed at ≈ 530 • C; β-CPP, which is formed at 700-750 • C; and β-CPP, which is transformed into α-CPP at 1140-1179 • C. According to the literature, most research was dedicated to the investigation of amorphous-CPP [122,123], γ-CPP [121], and β-CPP [120,125,126], which are produced by thermal conversion of hydrated ortho-or pyrophosphate calcium [122,123], solid phase synthesis [128], and the firing of brushite cement stone/powders [120,127,129] or monetite [125].…”

Section: Calcium Pyrophosphate/bioglass 45s5 Compositesmentioning

confidence: 99%

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Materials in the Na2O–CaO–SiO2–P2O5 System for Medical Applications

Kaimonov,

Safronova

2023

Materials

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Calcium phosphate materials and materials based on silicon dioxide have been actively studied for more than 50 years due to their high biocompatibility and bioactivity. Hydroxyapatite and tricalcium phosphate are the most known among calcium phosphate materials, and Bioglass 45S5 is the most known material in the Na2O–CaO–SiO2–P2O5 system. Each of these materials has its application limits; however, some of them can be eliminated by obtaining composites based on calcium phosphate and bioglass. In this article, we provide an overview of the role of silicon and its compounds, including Bioglass 45S5, consider calcium phosphate materials, talk about the limits of each material, demonstrate the potential of the composites based on them, and show the other ways of obtaining composite ceramics in the Na2O–CaO–SiO2–P2O5 system.

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Section: Calcium Pyrophosphate/bioglass 45s5 Compositesmentioning

confidence: 95%

Section: Calcium Pyrophosphate/bioglass 45s5 Compositesmentioning

confidence: 99%

Materials in the Na2O–CaO–SiO2–P2O5 System for Medical Applications

Kaimonov,

Safronova

2023

Materials

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“…Despite the fact that significant research interest is focused on the synthesis of hydroxyapatite (Ca 10 (PO 4 ) 6 (OH) 2 , Ca/P = 1.67) [1,2] and calcium orthophosphate (Ca 3 (PO 4 ) 2 , Ca/P = 1.5) [3,4] phases occurring naturally in bone tissue, special attention is paid to calcium phosphates with a Ca/P molar ratio different from the that of natural inorganic bone constituents. For instance, calcium metaphosphate [5], brushite [6,7], calcium polyphosphate [8], calcium pyrophosphate (Ca 2 P 2 O 7 , CPP) [9,10], as well as their biphasic composites [11] and ion-substituted analogs [12] are widely described in the literature. It is also noteworthy that such calcium phosphate materials can act not only as independent ceramic bases for the fabrication of bone implants but also as bioactive ceramic inclusions in bioglass- [13] or polymer-based systems that are currently being studied as promising materials for cell culturing and drug delivery in the field of bioscaffolding [14,15].…”

Section: Introductionmentioning

confidence: 99%

Powders Based on Ca2P2O7-CaCO3-H2O System as Model Objects for the Development of Bioceramics

et al. 2022

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Nanoscale powders of hydrated Ca2P2O7, CaCO3, and a product of mixed-anionic composition containing P2O74− and CO32− anions were synthesized from aqueous solutions of Ca(CH3COO)2, pyrophosphoric acid (H4P2O7), and/or (NH4)2CO3. Pyrophosphoric acid was previously obtained on the basis of the ion exchange process from Na4P2O7 solution and H+-cationite resin for further introduction into the reactions as an anionic precursor. The phase composition of powders after the syntheses was represented by bioresorbable phases of X-ray amorphous Ca2P2O7 phase, calcite and vaterite polymorphs of CaCO3. Based on synthesized powders, simple cylindrical constructions were prepared via mechanical pressing and fired in the temperature range of 600–800 °C. Surface morphology observation showed the presence of bimodal porosity with pore sizes up to 200 nm and 2 μm, which is likely to ensure tight particle packing and roughness of the sample surface required for the differentiation of osteogenic cells. Thus, the prepared ceramic samples can be further examined as model objects for bone tissue repair.

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“…The traditionally used hydroxyapatite (HA), Ca 10 (PO 4 ) 6 (OH) 2 , has the lowest solubility among calcium phosphates [3]. In the case of a regenerative approach to the treatment of bone tissue, bioresorbable phases are introduced into the composition of materials for bone implants which, compared to HA, have greater resorption, namely tricalcium phosphate β-Ca 3 (PO 4 ) 2 (Ca/P = 1.5) [4][5][6], calcium pyrophosphate Ca 2 P 2 O 7 (Ca/P = 1) [7][8][9], tromelite Ca 4 P 6 O 19 (Ca/P = 0.66) [10,11], calcium polyphosphate Ca(PO 3 ) 2 (Ca/P = 0.5) [12], Na-substituted tricalcium phosphate Ca 10 Na(PO 4 ) 7 , K-substituted tricalcium phosphate Ca 10 K(PO 4 ) 7 , sodium rhenanite CaNaPO 4 , and potassium rhenanite CaKPO 4 [13,14]. A necessary element of any strategy for improving the solubility of a compound with an ionic nature of the chemical bond is lowering the energy of the crystal lattice.…”

Section: Introductionmentioning

confidence: 99%

Ceramics Based on Sodium Rhenanite CaNaPO4, Obtained via Firing of Composite Cement-Salt Stone

et al. 2022

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Ceramics based on rhenanite CaNaPO4 with density of 0.94 g/cm3 and compressive strength of 10.3 MPa was obtained via firing at 900 °C of composite cement-salt stone prepared from a hardening powder mixture of calcium citrate tetrahydrate Ca3(C6H5O7)2∙4H2O and sodium dihydrogen phosphate NaH2PO4. The phase composition of the obtained samples of cement–salt stone was represented by monetite CaHPO4, unreacted sodium dihydrogen phosphate and calcium citrate tetrahydrate. According to the XRD data, the phase composition of the ceramic samples after annealing in the temperature range of 500–700 °C was mainly represented by the β-CaNaPO4 phase. It was found that after an annealing at temperature of 900 °C, the phase composition of ceramics was presented with the only phase of β-CaNaPO4. It was demonstrated that an increase in the annealing temperature led to an increase in the grain size from 1 μm after annealing at 500 °C to 5 μm after annealing at 900 °C. Obtained ceramic material based on CaNaPO4 could be important for regenerative treatments of bone tissue defects.

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Bioceramics Based on β-Calcium Pyrophosphate

Cited by 11 publications

References 49 publications

Materials in the Na2O–CaO–SiO2–P2O5 System for Medical Applications

Materials in the Na2O–CaO–SiO2–P2O5 System for Medical Applications

Powders Based on Ca2P2O7-CaCO3-H2O System as Model Objects for the Development of Bioceramics

Ceramics Based on Sodium Rhenanite CaNaPO4, Obtained via Firing of Composite Cement-Salt Stone

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