Graphene supports <i>in vitro</i> proliferation and osteogenic differentiation of goat adult mesenchymal stem cells: potential for bone tissue engineering

Elkhenany, Hoda; Amelse, Lisa; Lafont, Andersen; Bourdo, Shawn E.; Caldwell, Marc; Neilsen, Nancy R.; Dervishi, Enkeleda; Derek, Oshin; Biris, Alexandru S.; Anderson, David E.; Dhar, Madhu

doi:10.1002/jat.3024

Cited by 133 publications

(74 citation statements)

References 28 publications

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“…Graphene-based materials can accelerate the differentiation towards osteoblast-like cells [3][4][5][6]. Mesenchymal stem cells (MSCs) cultured on graphene substrates present early maturation and higher degree of mineralization [4,6,13]. Similar phenomena were also observed with the used graphene oxide nanoribbon (GONR) and reduced GONR (rGONR) grids for MSCs culture.…”

Section: Introductionsupporting

confidence: 60%

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Two and three-dimensional graphene substrates to magnify osteogenic differentiation of periodontal ligament stem cells

Xie

Cao

Gomes

et al. 2015

Carbon

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Section: Introductionsupporting

confidence: 60%

“…The remarkable effects of graphene in osteogenic differentiation of stem cells support its introduction as an alternative material for bone regeneration [3][4][5][6]9,[11][12][13][14][15]. Graphene-based materials can accelerate the differentiation towards osteoblast-like cells [3][4][5][6].…”

Section: Introductionmentioning

confidence: 97%

Two and three-dimensional graphene substrates to magnify osteogenic differentiation of periodontal ligament stem cells

Xie

Cao

Gomes

et al. 2015

Carbon

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“…In a similar study, the graphene's effect on the growth and differentiation of goat adult mesenchymal stem cells (gMSCs) was also investigated. [ 132 ] In recent years, the 3D graphene foams were developed and employed in bone regeneration fi eld. Crowder et al fabricated 3D porous graphene foams by growing graphene on a 3D nickel scaffold and employed the 3D graphene foams as culture substrates for hMSCs.…”

Section: Reviewmentioning

confidence: 99%

Graphene‐Based Materials in Regenerative Medicine

Ding

Liu

Fan

2015

Adv Healthcare Materials

143

100

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Graphene possesses many unique properties such as two-dimensional planar structure, super conductivity, chemical and mechanical stability, large surface area, and good biocompatibility. In the past few years, graphene-based materials have risen as a shining star on the path of researchers seeking new materials for future regenerative medicine. Herein, the recent research advances made in graphene-based materials mostly utilizing the mechanical and electrical properties of graphene are described. The most exciting findings addressing the impact of graphene-based materials on regenerative medicine are highlighted, with particular emphasis on their applications including nerve, bone, cartilage, skeletal muscle, cardiac, skin, adipose tissue regeneration, and their effects on the induced pluripotent stem cells. Future perspectives and emerging challenges are also addressed in this Review article.

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“…GO is a highly oxidized form of graphene prepared by oxidation of graphite. This amphiphile compound allows surface functionalization and can be dispersed in aqueous solution, making it an attractive candidate for gene and drug delivery and substrate modification [12, 16, 17, 34–37]. rGO can be further reduced to graphene-like sheets by removing the oxygen-containing groups with the recovery of a conjugated structure [12, 32].…”

Section: Graphene and Its Unique Propertiesmentioning

confidence: 99%

Graphene: A Versatile Carbon-Based Material for Bone Tissue Engineering

Dubey

Bentini

Islam

et al. 2015

Stem Cells International

193

135

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The development of materials and strategies that can influence stem cell attachment, proliferation, and differentiation towards osteoblasts is of high interest to promote faster healing and reconstructions of large bone defects. Graphene and its derivatives (graphene oxide and reduced graphene oxide) have received increasing attention for biomedical applications as they present remarkable properties such as high surface area, high mechanical strength, and ease of functionalization. These biocompatible carbon-based materials can induce and sustain stem cell growth and differentiation into various lineages. Furthermore, graphene has the ability to promote and enhance osteogenic differentiation making it an interesting material for bone regeneration research. This paper will review the important advances in the ability of graphene and its related forms to induce stem cells differentiation into osteogenic lineages.

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Graphene supports in vitro proliferation and osteogenic differentiation of goat adult mesenchymal stem cells: potential for bone tissue engineering

Cited by 133 publications

References 28 publications

Two and three-dimensional graphene substrates to magnify osteogenic differentiation of periodontal ligament stem cells

Two and three-dimensional graphene substrates to magnify osteogenic differentiation of periodontal ligament stem cells

Graphene‐Based Materials in Regenerative Medicine

Graphene: A Versatile Carbon-Based Material for Bone Tissue Engineering

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