Title of article
Polymeric Hydrogel Scaffolds: Skin Tissue Engineering and Regeneration
Author/Authors
Venkata Arjun Uppuluri, Varuna Naga Department of Pharmaceutics - School of Pharmaceutical Sciences - Vels Institute of Science, Technology & Advanced Studies (VISTAS), Chennai, India , Thukani Sathanantham, Shanmugarajan Department of Pharmaceutics - School of Pharmaceutical Sciences - Vels Institute of Science, Technology & Advanced Studies (VISTAS), Chennai, India , Bhimavarapu, Sai Krishna Department of Pharmaceutics - School of Pharmaceutical Sciences - Vels Institute of Science, Technology & Advanced Studies (VISTAS), Chennai, India , Elumalai, Lokesh Department of Pharmaceutics - School of Pharmaceutical Sciences - Vels Institute of Science, Technology & Advanced Studies (VISTAS), Chennai, India
Pages
12
From page
437
To page
448
Abstract
Tissue engineering is a novel regenerative approach in the medicinal field that promises the
regeneration of damaged tissues. Moreover, tissue engineering involves synthetic and natural
biomaterials that facilitate tissue or organ growth outside the body. Not surprisingly, the demand
for polymer-based therapeutical approaches in skin tissue defects has increased at an effective
rate, despite the pressing clinical need. Among the 3D scaffolds for tissue engineering and
regeneration approaches, hydrogel scaffolds have shown significant importance for their use
as 3D cross-linked scaffolds in skin tissue regeneration due to their ideal moisture retention
property and porosity biocompatibility, biodegradable, and biomimetic characteristics. In
this review, we demonstrated the choice of ideal biomaterials to fabricate the novel hydrogel
scaffolds for skin tissue engineering. After a short introduction to the bioactive and drug-loaded
polymeric hydrogels, the discussion turns to fabrication and characterisation techniques of the
polymeric hydrogel scaffolds. In conclusion, we discuss the excellent wound healing potential
of stem cell-loaded hydrogels and Nano-based approaches to designing hydrogel scaffolds for
skin tissue engineering.
Keywords
Hydrogel , Skin , Tissue engineering , Wound healing
Journal title
Advanced Pharmaceutical Bulletin
Serial Year
2022
Record number
2726613
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