2021
DOI: 10.1002/jbm.a.37290
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In vitro and in vivo advancement of multifunctional electrospun nanofiber scaffolds in wound healing applications: Innovative nanofiber designs, stem cell approaches, and future perspectives

Abstract: The skin is one of the most essential tissues in the human body, interacting with the outside environment and shielding the body from diseases and excessive water loss. Hydrogels, decellularized porcine dermal matrix, and lyophilized polymer scaffolds have all been used in studies of skin wound repair, wound dressing, and skin tissue engineering, however, these materials cannot replicate the nanofibrous architecture of the skin's native extracellular matrix (ECM). Electrospun nanofibers are a fascinating new f… Show more

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Cited by 56 publications
(33 citation statements)
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“…Where skin autografting is not possible, allografts or porcine xenografts are used, which are highly likely to reject the graft. Dermal cell or stem cell transplantation via electrospun dressings is a promising strategy for treating severe wounds ( Gizaw et al, 2019 ; Behere and Ingavle, 2022 ). Different synthetic and natural polymers can be used to fabricate nanofiber-based scaffolds for skin tissue regeneration.…”
Section: Biomedical Applications Of Hybrid Nanofibersmentioning
confidence: 99%
See 1 more Smart Citation
“…Where skin autografting is not possible, allografts or porcine xenografts are used, which are highly likely to reject the graft. Dermal cell or stem cell transplantation via electrospun dressings is a promising strategy for treating severe wounds ( Gizaw et al, 2019 ; Behere and Ingavle, 2022 ). Different synthetic and natural polymers can be used to fabricate nanofiber-based scaffolds for skin tissue regeneration.…”
Section: Biomedical Applications Of Hybrid Nanofibersmentioning
confidence: 99%
“…Different synthetic and natural polymers can be used to fabricate nanofiber-based scaffolds for skin tissue regeneration. In view of low cell attachment, proliferation, or infiltration in using only synthetic polymers, copolymerizations and blending with other hydrophilic polymers, especially combining with the skin tissue components − such as collagen, hyaluronic acid, and fibronectin—is highly recommended ( Behere and Ingavle, 2022 ). For instance, in a recent study, Mirzaei-Parsa et al (2019) developed nanofiber-based scaffolds for adipose-derived stem cells (ADSCs) as a wound dressing by electrospinning of PCL/fibrinogen.…”
Section: Biomedical Applications Of Hybrid Nanofibersmentioning
confidence: 99%
“…The transfection percentage of the nanocomplex to the HaCaT cells was greater than 40%. The electrospun nanofiber was advantageous for wound healing due to its biocompatibility and close skin coverage [ 155 ]. In vivo, topical treatments of the nanocomplex-loaded electrospun nanofiber on the mouse wound increased the epidermal thickness and angiogenesis as compared with the commercial dressing control.…”
Section: Approaches For Improving Mirna Deliverymentioning
confidence: 99%
“…Wound healing is characterized by a variety of reactions that include inflammatory, tissue-regenerating, and tissue-remodeling processes [ 35 ]. Wound dressings are biomaterials of synthetic or natural origin that aid in wound healing by establishing a favorable microenvironment, which attracts cells to the wound region [ 36 ]. In this work, an accurately designed synthesis of chitosan-based hybrid AuNPs based on this green and simple synthetic strategy, followed by accurate physicochemical characterization, will be described.…”
Section: Introductionmentioning
confidence: 99%