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W4313646579 abstract "Magnesium alloys are considered one of the most promising materials for biodegradable trauma implants because they promote bone healing and exhibit adequate mechanical strength during their biodegradation in relation to the bone healing process. Surface modification of biodegradable magnesium alloys is an important research field that is analyzed in many publications as the biodegradation due to the corrosion process and the interface with human tissue is improved. The aim of the current preliminary study is to develop a polymeric-based composite coating on biodegradable magnesium alloys by the solvent evaporation method to reduce the biodegradation rate much more than in the case of simple polymeric coatings by involving some bioactive filler in the form of particles consisting of hydroxyapatite and magnesium. Various techniques such as SEM coupled with EDS, FTIR, and RAMAN spectroscopy, and contact angle were used for the structural and morphological characterization of the coatings. In addition, thermogravimetric analysis (TGA) was used to study the effect of filler particles on polymer thermostability. In vitro cytotoxicity assays were performed on MG-63 cells (human osteosarcomas). The experimental analysis highlights the positive effect of magnesium and hydroxyapatite particles as filler for cellulose acetate when they are used alone from biocompatibility and surface analysis points of view, and it is not recommended to use both types of particles (hydroxyapatite and magnesium) as hybrid filling. In future studies focused on implantation testing, we will use only CA-based composite coatings with one filler on magnesium alloys because these composite coatings have shown better results from the in vitro testing point of view for future potential orthopedic biodegradable implants for trauma." @default.
W4313646579 created "2023-01-07" @default.
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W4313646579 date "2023-01-06" @default.
W4313646579 modified "2023-10-18" @default.
W4313646579 title "Effect of Filler Types on Cellulose-Acetate-Based Composite Used as Coatings for Biodegradable Magnesium Implants for Trauma" @default.
W4313646579 cites W1003895375 @default.
W4313646579 cites W1750125886 @default.
W4313646579 cites W1979168312 @default.
W4313646579 cites W2000346495 @default.
W4313646579 cites W2001884721 @default.
W4313646579 cites W2008446068 @default.
W4313646579 cites W2028956085 @default.
W4313646579 cites W2033606897 @default.
W4313646579 cites W2040107565 @default.
W4313646579 cites W2046481726 @default.
W4313646579 cites W2057662113 @default.
W4313646579 cites W2070314660 @default.
W4313646579 cites W2076842240 @default.
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W4313646579 cites W2090315592 @default.
W4313646579 cites W2096735953 @default.
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W4313646579 cites W2300297556 @default.
W4313646579 cites W2330945476 @default.
W4313646579 cites W2332477151 @default.
W4313646579 cites W2557311400 @default.
W4313646579 cites W2562249067 @default.
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W4313646579 cites W2604231752 @default.
W4313646579 cites W2621807269 @default.
W4313646579 cites W2646227972 @default.
W4313646579 cites W2750869020 @default.
W4313646579 cites W2767045257 @default.
W4313646579 cites W2888033470 @default.
W4313646579 cites W2888188239 @default.
W4313646579 cites W2904205929 @default.
W4313646579 cites W2909191840 @default.
W4313646579 cites W2920955115 @default.
W4313646579 cites W2941461291 @default.
W4313646579 cites W2953728785 @default.
W4313646579 cites W2954007819 @default.
W4313646579 cites W2982090308 @default.
W4313646579 cites W2984700109 @default.
W4313646579 cites W2990242227 @default.
W4313646579 cites W3000749896 @default.
W4313646579 cites W3005609847 @default.
W4313646579 cites W3005773699 @default.
W4313646579 cites W3025698453 @default.
W4313646579 cites W3037442112 @default.
W4313646579 cites W3080186834 @default.
W4313646579 cites W3081674591 @default.
W4313646579 cites W3083897453 @default.
W4313646579 cites W3084744807 @default.
W4313646579 cites W3089460724 @default.
W4313646579 cites W3092805723 @default.
W4313646579 cites W3096925649 @default.
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W4313646579 doi "https://doi.org/10.3390/ma16020554" @default.
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