Saisupriyalakshmi Saravanan scite author profile

Electro-spinnable polymeric materials can easily form two-dimensional (2D) nanofibrous scaffolds improving biochemical functionalities specially in the area of skin wound healing and nanomedicine, but it has been hard to achieve this on a highly mechanically stable biopolymer, Poly ether ether ketone (PEEK), due to its intrinsic hydrophobicity and chemical inertness. Herein, we demonstrated a novel nanomedicine healing system consisting of sulphonated poly ether ether ketone combined with resveratrol (SPEEK+RSV), which could act as an effective 2D nano bio-material in vitro and in vivo, without observable cytotoxicity. The fabricated nanocomposites exhibited enriched skin cell proliferation and adhesion as confirmed from the results of MTT, cell adhesion and live-dead assay. Results of SEM analysis showed a uniform nano-sized distribution with adequate pore size and porosity % facilitating a desired breathable environment at the wound site. The results of FT-IR, tensile studies and TGA analyses confirmed the presence of appropriate bonds and improved mechanical stability of the RSV incorporated nanofibrous scaffold. Results of anti-microbial analysis portrayed good potentiality of the fabricated nanofibers in treating wounds colonized with bacterial infections. Controlled drug release of resveratrol established the bio-compatibility of the nanofibers in skin wound regeneration. In vivo analysis assessed in female Wistar rats enabled complete wound closure with 100 % wound contraction within 16 days. Results of histopathology analysis through H-E and MT staining presented the re-surfing of the wound environment with regeneration of epithelium, granulation tissue and collagen. Thus, the fabricated 2D nanofibrous scaffold incorporated with pharmaceutical RSV bio-medicine perceptively mimicked skin ECM convincingly aiding the progression of skin wound regeneration mechanism.

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Statistical optimization of novel acemannan polysaccharides assisted TiO2 nanorods based nanofibers for skin cancer application

Ekambaram

Saravanan

Selvam

et al. 2021

Carbohydrate Polymer Technologies and Applications

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Saisupriyalakshmi Saravanan

Fabrication and evaluation of Docetaxel doped ZnO nanoparticles incorporated PCL nanofibers for its hemocompatibility, cytotoxicity and apoptotic effects against A549

Strategically designed SPEEK nanofibrous scaffold with tailored delivery of resveratrol for skin wound regeneration

Statistical optimization of novel acemannan polysaccharides assisted TiO2 nanorods based nanofibers for skin cancer application

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