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Review
. 2022 Oct;110(10):1695-1721.
doi: 10.1002/jbm.a.37417. Epub 2022 Jun 28.

Recent advances and challenges in graphene-based nanocomposite scaffolds for tissue engineering application

Zahra Niknam  1   2 Faezeh Hosseinzadeh  3   4 Forough Shams  5 Leyla Fath-Bayati  3 Ghader Nuoroozi  6 Leila Mohammadi Amirabad  7 Fariba Mohebichamkhorami  6 Sahar Khakpour Naeimi  8 Soudeh Ghafouri-Fard  9 Hakimeh Zali  6   10 Lobat Tayebi  7 Yousef Rasmi  11   12
Affiliations
Review

Recent advances and challenges in graphene-based nanocomposite scaffolds for tissue engineering application

Zahra Niknam et al. J Biomed Mater Res A. 2022 Oct.

Abstract

Graphene-based nanocomposites have recently attracted increasing attention in tissue engineering because of their extraordinary features. These biocompatible substances, in the presence of an apt microenvironment, can stimulate and sustain the growth and differentiation of stem cells into different lineages. This review discusses the characteristics of graphene and its derivatives, such as their excellent electrical signal transduction, carrier mobility, outstanding mechanical strength with improving surface characteristics, self-lubrication, antiwear properties, enormous specific surface area, and ease of functional group modification. Moreover, safety issues in the application of graphene and its derivatives in terms of biocompatibility, toxicity, and interaction with immune cells are discussed. We also describe the applicability of graphene-based nanocomposites in tissue healing and organ regeneration, particularly in the bone, cartilage, teeth, neurons, heart, skeletal muscle, and skin. The impacts of special textural and structural characteristics of graphene-based nanomaterials on the regeneration of various tissues are highlighted. Finally, the present review gives some hints on future research for the transformation of these exciting materials in clinical studies.

Keywords: graphene; graphene-based materials; nanocomposite; regenerative medicine; scaffold; stem cell; tissue engineering.

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References

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