Synthesis of Luminescent Eu(III)-Doped Octacalcium Phosphate Particles Hybridized with Succinate Ions and Their Reactive Behavior in Simulated Body Fluid

Bioactivity of hydroxyapatite reinforced ultrahigh molecular weight polyethylene (HA/UHMWPE) nanocomposites with HA volume content of 10~50 % was evaluated by simulated body fluid (SBF) immersion. The effect of HA content on the capability for calcium phosphate (Ca- P) induction was studied. It was found that Ca-P deposition covered the whole surface of the composite with 30 vol. % of HA after immersion for 1 day and the layer grew to around 10 0m thick in one-week immersion, while there was few nucleus formed for composites with HA content lower than 30 vol. % after one-week immersion. The Ca-P structure was identified as octacalcium phosphate (OCP) by SEM, TEM, and ToF-SIMS.

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Transformation of Electrodeposited Calcium Phosphate Coatings in Simulated Body Fluid and in Culture Medium

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.284-286.473 ◽

2005 ◽

Vol 284-286 ◽

pp. 473-476 ◽

Cited By ~ 1

Author(s):

Ji Ho Park ◽

Yong Keun Lee ◽

Kwang Mahn Kim ◽

Kyoung Nam Kim

Keyword(s):

Simulated Body Fluid ◽

Body Fluid ◽

Culture Medium ◽

Titanium Substrate ◽

Octacalcium Phosphate ◽

Porous Hydroxyapatite ◽

Ha Coating ◽

Mg63 Cells ◽

The Difference ◽

Calcium Phosphate Coatings

The coatings formed on the H2O2-treated titanium substrate by electrodeposition were used in order to evaluate the difference of transformations in the simulated body fluid (SBF) and the culture medium with MG63 cells. A porous hydroxyapatite (HA) coating with relatively low crystallinity and large crystallites was formed on the H2O2-treated titanium substrate by electrodeposition. HA coating transformed for 5 days in the SBF consisted of densely-packed rod-shaped crystallites with various differentiated grains. Octacalcium phosphate (OCP) and HA coating transformed for 5 days in the culture medium consisted of both flake-shaped and rod-shaped crystallites with indistinct grains. MG-63 cells were well attached and proliferated during the transformation into this flaked-shaped OCP. This difference between transformations of the HA coatings in the acellular SBF and in the culture medium with MG63 cells is due to different ion composition in each solution and proteins in culture medium.

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Nanomechanical Properties of Titanium Coated with Octacalcium Phosphate by Immersion in a Simplified Simulated Body Fluid

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.396-398.365 ◽

2008 ◽

Vol 396-398 ◽

pp. 365-368

Author(s):

E. Gemelli ◽

Christiane Xavier Resende ◽

Carlos M. Lepienski ◽

Gloria Dulce de Almeida Soares

Keyword(s):

Elastic Modulus ◽

Calcium Phosphate ◽

Simulated Body Fluid ◽

Mechanical Behavior ◽

Amorphous Calcium Phosphate ◽

Body Fluid ◽

Octacalcium Phosphate ◽

Dense Structure ◽

Nanomechanical Properties

In this study we report on the microstructure and its mechanical behavior of a Ca-P coating produced on bioactive titanium by immersion in a simplified simulated body fluid (S-SBF). The coating was probed by nanoindentation in several point times up to the formation of octacalcium phosphate (OCP). Amorphous calcium phosphate, formed after 1h of immersion in SSBF, presented the highest values of hardness (H) and elastic modulus (E). Nucleation of OCP was observed after 2-2,5h of immersion in S-SBF. From this stage on, lower values of H and E were obtained, probably due to the low dense structure of the coating.

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Nucleation and growth of octacalcium phosphate on treated titanium by immersion in a simplified simulated body fluid

Journal of Materials Science Materials in Medicine ◽

10.1007/s10856-010-4074-9 ◽

2010 ◽

Vol 21 (7) ◽

pp. 2035-2047 ◽

Cited By ~ 14

Author(s):

Enori Gemelli ◽

Cristiane Xavier Resende ◽

Gloria Dulce de Almeida Soares

Keyword(s):

Simulated Body Fluid ◽

Body Fluid ◽

Octacalcium Phosphate ◽

Nucleation And Growth

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IN-VITRO BEHAVIOUR OF BIPHASIC CALCIUM PHOSPHATE WITH DIFFERENT RATIO OF SILICA CONTENT IN SIMULATED BODY FLUID

Journal of industrial technology ◽

10.21908/jit.2015.8 ◽

2015 ◽

Vol 23 (1) ◽

pp. 1-14

Author(s):

Sudirman Sahid ◽

◽

Nor Shahida Kader Bashah ◽

Salina Sabudin ◽

◽

...

Keyword(s):

Calcium Phosphate ◽

Simulated Body Fluid ◽

Body Fluid ◽

Biphasic Calcium Phosphate ◽

Silica Content

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Phase evolution of hydroxapatite coatings suspension plasma sprayed using variable parameters in simulated body fluid

Surface and Coatings Technology ◽

10.1016/j.surfcoat.2009.10.022 ◽

2010 ◽

Vol 204 (8) ◽

pp. 1236-1246 ◽

Cited By ~ 38

Author(s):

Romain d'Haese ◽

Lech Pawlowski ◽

Muriel Bigan ◽

Roman Jaworski ◽

Marc Martel

Keyword(s):

Simulated Body Fluid ◽

Body Fluid ◽

Phase Evolution ◽

Variable Parameters ◽

Plasma Sprayed

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Long-Term Corrosion Behavior of AZ80 Magnesium Alloy along Different Crystallographic Orientations in Simulated Body Fluid

Journal of Materials Engineering and Performance ◽

10.1007/s11665-021-05519-4 ◽

2021 ◽

Author(s):

Tao Zhu ◽

Aoxuan Zhang ◽

Yongshui Shen ◽

Xinghua Gong ◽

Ying Xiong

Keyword(s):

Magnesium Alloy ◽

Simulated Body Fluid ◽

Corrosion Behavior ◽

Body Fluid ◽

Az80 Magnesium Alloy ◽

Crystallographic Orientations

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Tetracalcium Phosphate/Monetite/Calcium Sulfate Hemihdrate Biocement Powder Mixtures Prepared by the One-Step Synthesis for Preparation of Nanocrystalline Hydroxyapatite Biocement-Properties and In Vitro Evaluation

Materials ◽

10.3390/ma14092137 ◽

2021 ◽

Vol 14 (9) ◽

pp. 2137

Author(s):

Lubomir Medvecky ◽

Maria Giretova ◽

Radoslava Stulajterova ◽

Lenka Luptakova ◽

Tibor Sopcak

Keyword(s):

Simulated Body Fluid ◽

Body Fluid ◽

Calcium Sulfate ◽

Powder Mixtures ◽

Liquid Component ◽

Tetracalcium Phosphate ◽

Nanocrystalline Hydroxyapatite ◽

One Step ◽

Calcium Sulfate Hemihydrate

A modified one-step process was used to prepare tetracalcium phosphate/monetite/calcium sulfate hemihydrate powder cement mixtures (CAS). The procedure allowed the formation of monetite and calcium sulfate hemihydrate (CSH) in the form of nanoparticles. It was hypothesized that the presence of nanoCSH in small amounts enhances the in vitro bioactivity of CAS cement in relation to osteogenic gene markers in mesenchymal stem cells (MSCs). The CAS powder mixtures with 15 and 5 wt.% CSH were prepared by milling powder tetracalcium phosphate in an ethanolic solution of both orthophosphoric and sulfuric acids. The CAS cements had short setting times (around 5 min). The fast setting of the cement samples after the addition of the liquid component (water solution of NaH2PO4) was due to the partial formation of calcium sulfate dihydrate and hydroxyapatite before soaking in SBF with a small change in the original phase composition in cement powder samples after milling. Nanocrystalline hydroxyapatite biocement was produced by soaking of cement samples after setting in simulated body fluid (SBF). The fast release of calcium ions from CAS5 cement, as well as a small rise in the pH of SBF during soaking, were demonstrated. After soaking in SBF for 7 days, the final product of the cement transformation was nanocrystalline hydroxyapatite. The compressive strength of the cement samples (up to 30 MPa) after soaking in simulated body fluid (SBF) was comparable to that of bone. Real time polymerase chain reaction (RT-PCR) analysis revealed statistically significant higher gene expressions of alkaline phosphatase (ALP), osteonectin (ON) and osteopontin (OP) in cells cultured for 14 days in CAS5 extract compared to CSH-free cement. The addition of a small amount of nanoCSH (5 wt.%) to the tetracalcium phosphate (TTCP)/monetite cement mixture significantly promoted the over expression of osteogenic markers in MSCs. The prepared CAS powder mixture with its enhanced bioactivity can be used for bone defect treatment and has good potential for bone healing.

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