Adhesion evaluation of different bioceramic coatings on Mg–Ca alloys for biomedical applications

Biță, Ana-Iulia; Stan, George E.; Niculescu, Marius; Ciucă, Ion; Vasile, Eugeniu; Antoniac, Iulian Vasile

doi:10.1080/01694243.2016.1171569

Cited by 41 publications

(19 citation statements)

References 47 publications

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“…Bita et al performed immersion and electrochemical tests on Mg–Ca alloys. Their findings showed that the Tafel plots of tests in DMEM were more fluctuating, and corroded surfaces were less degraded in comparison to SBF.…”

Section: Resultsmentioning

confidence: 99%

“…Comparative data found in the literature between SBF and DMEM mostly focus on either a limited number of metallic materials/coatings or precipitation of various products on the surface upon immersion for long periods of time . Besides this, the influence of proteins on the corrosion mechanisms and kinetics seems to be an ongoing debate in the available literature . The aim of this study is to compare the corrosion behavior of most common metallic biomaterials used as implant materials in two different solutions, SBF (corrected SBF [c‐SBF]) as generally used and cell culture medium (DMEM) as the more bio‐mimicked fluid for the in vivo physiological environment.…”

Section: Introductionmentioning

confidence: 99%

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Comparison of SBF and DMEM in terms of electrochemical properties of common metallic biomaterials

Bayrak

Asl

2019

Materials & Corrosion

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Corrosion behavior is an important parameter for metallic biomaterials used in the body environment. To mimic bodily fluids, simulated body fluid (SBF) has been used extensively. Even though many studies focus on corrosion inside SBF, SBF has a very time consuming and delicate preparation procedure and contains no essential and organic components for the cell environment, which may affect corrosion kinetics. We aimed to investigate whether corrosion behavior or kinetics change in different solutions, SBF and Dulbecco's modified Eagle medium (DMEM). For this purpose, five commonly used metallic biomaterials, AISI 316 stainless steel, CoCrMo alloy, CP‐Ti, Ti6Al4V, and Ti6Al7Nb were subjected to open circuit measurements, cyclic polarization, and electrochemical impedance spectroscopy. Quantitative analyses were performed and surface topography was investigated via scanning electron microscope and a roughness tester. We observed that the materials exhibited similar behaviors in SBF and DMEM but the corrosion kinetics were somewhat different and the results obtained from DMEM were time dependent.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Comparison of SBF and DMEM in terms of electrochemical properties of common metallic biomaterials

Bayrak

Asl

2019

Materials & Corrosion

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“…The relevance of the new materials is important not just for dental medicine [4][5][6][7], but also for other clinical specializations like orthopedics [8][9][10][11], neurosurgery [12][13][14], abdominal surgery [15][16][17], gynecology [18,19], cardiovascular [20][21][22] and ophthalmology [23].…”

mentioning

confidence: 99%

The Glass Ionomer Cement Reinforced with Silver - Premise in Choosing the Teeth Proposed for Orthodontic Purpose Extraction

Earar¹,

Porumb²,

Matei³

et al. 2019

Rev. Chim.

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The glass ionomer cements present very good bio compatibility especially due to the presence of Fluor in their composition. The reactivity from the dental pulp to the ionomer cements is also favorable, even in the case of the profound cavities. The metallic ionomer cements are obturation materials that tend to replace the amalgams and were created by adding of metallic alloys to the glass powder for the purpose of improving the mechanic properties. The resistance to abrasion of the glass ionomer cements reinforced with Ag is increased compared to the ionomer cements, being close to that of the composite resins with micro filling, but inferior to the amalgams or composites for the posterior area. All these properties of the metallic glass ionomers recommend their utilization in accomplishing the definitive obturations of the permanent teeth from the lateral area, where the physiognomic aspect is not on the first place and where it is necessary a material with fast grip. The physical-chemical qualities and the bio compatibility of the glass ionomers reinforced with particles of silver was our premise in their utilization for the obturation of the molars of six years in children.

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“…The relevance of the adhesion phenomena is important for various clinical specializations like cardiovascular surgery [1], orthopedics [2][3][4][5], dentistry [6][7][8][9], neurosurgery [10,11], abdominal surgery [12][13][14][15], gynecology [16,17], and ophthalmology [18].…”

mentioning

confidence: 99%

Bioadhesives Used in Cardiovascular Surgery

Moldovan¹,

Gheorghiță²,

Antoniac³

et al. 2018

Rev. Chim.

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Adhesion evaluation of different bioceramic coatings on Mg–Ca alloys for biomedical applications

Cited by 41 publications

References 47 publications

Comparison of SBF and DMEM in terms of electrochemical properties of common metallic biomaterials

Comparison of SBF and DMEM in terms of electrochemical properties of common metallic biomaterials

The Glass Ionomer Cement Reinforced with Silver - Premise in Choosing the Teeth Proposed for Orthodontic Purpose Extraction

Bioadhesives Used in Cardiovascular Surgery

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