Silver release of Ag (I) doped hydroxyapatite: In vitro study

Erdem, Ümit; Turkoz, Mustafa

doi:10.1002/jemt.23243

Cited by 7 publications

(2 citation statements)

References 46 publications

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“…The presence of Ag + also contributed to lower corrosion rates of the samples compared to pure HA [45]. Additionally, the pH value, which varied between 6.55 and 7.40 in all measurements for the Ag + -doped HA groups, was suitable for the living system [46].…”

Section: Ag + -Doped Ha-based Materialsmentioning

confidence: 89%

Metal Ion-Doped Hydroxyapatite-Based Materials for Bone Defect Restoration

Wang,

Huang,

Peng

2023

Bioengineering

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Hydroxyapatite (HA)-based materials are widely used in the bone defect restoration field due to their stable physical properties, good biocompatibility, and bone induction potential. To further improve their performance with extra functions such as antibacterial activity, various kinds of metal ion-doped HA-based materials have been proposed and synthesized. This paper offered a comprehensive review of metal ion-doped HA-based materials for bone defect restoration based on the introduction of the physicochemical characteristics of HA followed by the synthesis methods, properties, and applications of different kinds of metal ion (Ag+, Zn2+, Mg2+, Sr2+, Sm3+, and Ce3+)-doped HA-based materials. In addition, the underlying challenges for bone defect restoration using these materials and potential solutions were discussed.

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Section: Ag + -Doped Ha-based Materialsmentioning

confidence: 89%

Metal Ion-Doped Hydroxyapatite-Based Materials for Bone Defect Restoration

Wang,

Huang,

Peng

2023

Bioengineering

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“…In addition, it is suggested that hydroxyapatite coatings containing fluoride, silver, etc. ions on implants can effectively inhibit bacterial adhesion and growth without affecting the activity of osteoblasts and epithelial cells (23)(24)(25). The cell study results obtained from the product in question help to conclude that hydroxyapatite will be an effective dental treatment material when its known antibacterial properties are considered.…”

Section: Cytotoxicity Assaymentioning

confidence: 97%

A new era in fundamentals of bone homeostasis: biocompatibility of bone mineral doped fluoride ions with osteoblast cells in the balance of calcium and phosphate metabolism

Gürler

Bozer²

2022

Anatolian Current Medical Journal

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Aim: The use of biocompatible bone tissue grafts, filling materials, bone minerals, and implants, particularly in medicine and dentistry studies, has expanded significantly in recent years, as have expectations from the materials. We aimed to test the biocompatibility and wound and tissue biocompatibility of many grafts and similar materials used in medicine and dentistry with tests such as cytotoxicity, scratch assay, cell adhesion, and hemolysis. Material and Method: In this study, the interaction of fluorine ions with a dental material was investigated by biological activity experiments. In addition, studies were carried out on important osteoblast cells for tissue regeneration control. For this process, cell migration analysis, which we do not encounter frequently in the literature, was used to examine the interaction of cells with biomaterials more sharply. Results: Flor ions do not create a cytotoxic effect and also increase the viability of osteoblasts which is important for tissue regeneration and are bone precursor cells. Conclusions: In this study, in which the efficiency of osteoblast cells was discussed, it was concluded that 2% fluorine added material had more effective biological results compared to the increase in fluorine ion ratio.

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