Antibacterial Electrospun Nanofibrous Materials for Wound Healing

“…[21] Recently, substantial importance has been given to dressing materials that mimic the function of the extracellular matrix, which facilitates the migration and proliferation of dermal and epidermal cells for effective wound closure. [22] Several 3D porous materials, such as gauze, foam, electrospun fibers, etc., have been developed toward this purpose, as porous dressings offer a high surface-to-volume ratio and adequate porosity for gas permeation, besides being amenable to incorporating desired therapeutic agents. [23][24][25][26] In the recent past, traditional dressing materials loaded with antibiotics, including triclosan, [27] doxycycline hyclate, [28] norfloxacin, [28] minocycline, [29] and ciprofloxacin, [30] [31] have been developed to combat the infectious microorganisms at the wound site.…”

“…[ 21 ] Recently, substantial importance has been given to dressing materials that mimic the function of the extracellular matrix, which facilitates the migration and proliferation of dermal and epidermal cells for effective wound closure. [ 22 ] Several 3D porous materials, such as gauze, foam, electrospun fibers, etc., have been developed toward this purpose, as porous dressings offer a high surface‐to‐volume ratio and adequate porosity for gas permeation, besides being amenable to incorporating desired therapeutic agents. [ 23–26 ]…”

Fabrication and Facile Surface Derivatization of Poly(ε‐caprolactone)‐Based Wound Dressing Materials Imparting Anti‐Infective, Excessive Biofluid Drainage, and Easy‐to‐Peel Characteristics

“…[21] Recently, substantial importance has been given to dressing materials that mimic the function of the extracellular matrix, which facilitates the migration and proliferation of dermal and epidermal cells for effective wound closure. [22] Several 3D porous materials, such as gauze, foam, electrospun fibers, etc., have been developed toward this purpose, as porous dressings offer a high surface-to-volume ratio and adequate porosity for gas permeation, besides being amenable to incorporating desired therapeutic agents. [23][24][25][26] In the recent past, traditional dressing materials loaded with antibiotics, including triclosan, [27] doxycycline hyclate, [28] norfloxacin, [28] minocycline, [29] and ciprofloxacin, [30] [31] have been developed to combat the infectious microorganisms at the wound site.…”

“…[ 21 ] Recently, substantial importance has been given to dressing materials that mimic the function of the extracellular matrix, which facilitates the migration and proliferation of dermal and epidermal cells for effective wound closure. [ 22 ] Several 3D porous materials, such as gauze, foam, electrospun fibers, etc., have been developed toward this purpose, as porous dressings offer a high surface‐to‐volume ratio and adequate porosity for gas permeation, besides being amenable to incorporating desired therapeutic agents. [ 23–26 ]…”

Fabrication and Facile Surface Derivatization of Poly(ε‐caprolactone)‐Based Wound Dressing Materials Imparting Anti‐Infective, Excessive Biofluid Drainage, and Easy‐to‐Peel Characteristics

“…However, the inappropriate and disproportionate use of drugs has led to the emergence of superbugs, such as methicillin-resistant Staphylococcus aureus (MRSA) and vancomycin-resistant Enterococcus (VRE). [4][5][6] Although many novel antibacterial materials have been developed for the treatment of bacterial infection, for example, antimicrobial peptides, antibacterial nanoparticles, photothermal/photodynamic therapy agents, balance therapy agents and smart antibacterial materials, [7][8][9][10][11][12] additionally, some advanced bacterial detection materials have been developed for the prevention of bacterial infections. 3 However, antibiotics still play an irreplaceable role in the treatment of bacterial infectious diseases.…”

A rapid screening platform for antibiotic susceptibility testing based on a simple colorimetric method

“…Wound healing is a complex process, which involves four stages: hemostasis, inflammation, proliferation and remodeling. 1–4 Apart from proper management of inflammation, fast vascularization is crucial to rapid and high-quality healing. Currently, the wound dressing market is dominated by the conventional dressing materials ( e.g.…”

Strontium-doped mesoporous bioglass nanoparticles for enhanced wound healing with rapid vascularization