Enhanced Osteogenesis by Reduced Graphene Oxide/Hydroxyapatite Nanocomposites

Lee, Jong Ho; Shin, Yong Cheol; Lee, Sang‐Min; Jin, Oh Seong; Kang, Sang Hoon; Hong, Suck Won; Jeong, Chang-Mo; Huh, Jung-Bo; Han, Dong‐Wook

doi:10.1038/srep18833

Cited by 224 publications

(127 citation statements)

References 66 publications

(71 reference statements)

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“…Calvarial defects of critical sizes were produced in rabbits and then cured with GO/β-TCP scaffold, which resulted in higher rate of naive bone formation than defects filled by unchanged β-TCP alone [126]. Similar observations were also found in the case of rGO/HAp graft which showed considerably higher (52%) bone density than HAp (26%) as well as untreated control (17%) [127].…”

Section: Graphene In Biomedical Implantationsupporting

confidence: 69%

Graphene and graphene oxide as nanomaterials for medicine and biology application

et al. 2018

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Graphene-and graphene oxide-based nanomaterials have gained broad interests in research because of their unique physiochemical properties. The 2D allotropic structure allows it to be used in various biological fields. The biomedical applications of graphene and its composite include its use in gene and small molecular drug delivery. It is further used for biofunctionalization of protein, in anticancer therapy, as an antimicrobial agent for bone and teeth implantation. The biocompatibility of the newly synthesized nanomaterials allows its substantial use in medicine and biology. The current review summarizes the chemical structure and biological application of graphene in various fields.

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Section: Graphene In Biomedical Implantationsupporting

confidence: 69%

Graphene and graphene oxide as nanomaterials for medicine and biology application

et al. 2018

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“…Graphene-based materials have been combined with HAP to enhance osteogenic differentiation of cells and formation of new bone [146, 149, 150]. It was reported that GO/CaCO 3 or graphene/CaCO 3 hybrid composites can enhance formation of HAP when incubated in simulated body fluid (SBF) solution [146].…”

Section: Applications In Tissue Engineering and Regenerative Medicinementioning

confidence: 99%

“…rGO sheets and HAP microparticles can adhere with each other through electrostatic interactions and hydrogen-bonding [149, 150]. The positively charged calcium moieties on the surface of HAP microparticles can be immobilized on the negatively charged hydroxyl and carboxyl groups on the surface of rGO sheets via electrostatic interactions.…”

Section: Applications In Tissue Engineering and Regenerative Medicinementioning

confidence: 99%

Graphene-based materials for tissue engineering

Shin

Jang

et al. 2016

Advanced Drug Delivery Reviews

580

418

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Graphene and its chemical derivatives have been a pivotal new class of nanomaterials and a model system for quantum behavior. The material's excellent electrical conductivity, biocompatibility, surface area and thermal properties are of much interest to the scientific community. Two dimensional graphene materials have been widely used in various biomedical research areas such as bioelectronics, imaging, drug delivery, and tissue engineering. In this review we will highlight the recent applications of graphene-based materials in tissue engineering and regenerative medicine. In particular, we will discuss the application of graphene-based materials in cardiac, neural, bone, cartilage, skeletal muscle, and skin/adipose tissue engineering. We also discuss the potential risk factors of graphene-based materials in tissue engineering. In addition, we will outline the opportunities in the usage of graphene-based materials for clinical applications.

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“…Therefore, the DCP-rGO composites could be successfully formed because of the unique structural properties of rGO sheets. In addition, the interfacial and hydrogen bond interactions between the oxygen-containing surface groups of rGO and the hydroxyl groups of DCP microparticles could also participate in the good adhesion between DCP microparticles and rGO [50,57,58]. Figure 3b showed the Raman spectra of DCP microparticles and DCP-rGO composites.…”

Section: Methodsmentioning

confidence: 99%

“…The rGO sheets were obtained by the preparation of GO using the modified Hummers and offeman method, and subsequent reduction process of GO with hydrazine hydrate (N 2 H 4 ·H 2 O) at 100 • C for 24 h [38,49,50]. The prepared rGO sheets in deionized water were sonicated for 2 h. The DCP microparticles dispersed in deionized water were physically mixed at DCP to rGO weight ratios of 2:1, 1:1, or 1:2, respectively.…”

Section: Methodsmentioning

confidence: 99%

Dicalcium Phosphate Coated with Graphene Synergistically Increases Osteogenic Differentiation In Vitro

et al. 2017

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Abstract:In recent years, graphene and its derivatives have attracted much interest in various fields, including biomedical applications. In particular, increasing attention has been paid to the effects of reduced graphene oxide (rGO) on cellular behaviors. On the other hand, dicalcium phosphate (DCP) has been widely used in dental and pharmaceutical fields. In this study, DCP composites coated with rGO (DCP-rGO composites) were prepared at various concentration ratios (DCP to rGO concentration ratios of 5:2.5, 5:5, and 5:10 µg/mL, respectively), and their physicochemical properties were characterized. In addition, the effects of DCP-rGO hybrid composites on MC3T3-E1 preosteoblasts were investigated. It was found that the DCP-rGO composites had an irregular granule-like structure with a diameter in the range order of the micrometer, and were found to be partially covered and interconnected with a network of rGO. The zeta potential analysis showed that although both DCP microparticles and rGO sheets had negative surface charge, the DCP-rGO composites could be successfully formed by the unique structural properties of rGO. In addition, it was demonstrated that the DCP-rGO composites significantly increased alkaline phosphatase activity and extracellular calcium deposition, indicating that the DCP-rGO hybrid composites can accelerate the osteogenic differentiation by the synergistic effects of rGO and DCP. Therefore, in conclusion, it is suggested that the DCP-rGO hybrid composites can be potent factors in accelerating the bone tissue regeneration.

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Enhanced Osteogenesis by Reduced Graphene Oxide/Hydroxyapatite Nanocomposites

Cited by 224 publications

References 66 publications

Graphene and graphene oxide as nanomaterials for medicine and biology application

Graphene and graphene oxide as nanomaterials for medicine and biology application

Graphene-based materials for tissue engineering

Dicalcium Phosphate Coated with Graphene Synergistically Increases Osteogenic Differentiation In Vitro

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