Abstract
The topical delivery offers numerous benefits, such as the ability to deliver drugs specifically on site selectively, prevents fluctuations in the levels of the drug, improved compliance, and improved self-medication capacity. Skin is the main route of the administration of the drug delivery system (DDS) and burns mainly cause skin damage. A burn is a kind of damage caused to skin and tissues by fire, ice, electrical energy, pollutants, friction, and radiation. There are three different types of burns, including superficial epidermis burns, partial-thickness dermis that stretch to the papillary and reticular dermis, and full-thickness burns that cover the dermis whole. The objective of the present review article is to focus on fabrication techniques of medical textiles, different types of polymers used for designing medicated textiles, skin burn conditions, and application of medicated textiles for treatment of burn along with other applications. Cream, ointment, and gel are the dosage forms used in burns. Intravenous fluids, wound care, assorted antibiotics, surgical and alternative medicines, burned creams and salami, dressings can be used to treat wounds. Nanofibers are nanometer-specific fibers that encapsulate drugs inside them and cure wounds. Nanofibers have all the properties that speed up wound healing. The properties are mechanical integrity, proper timing of wound addiction, temperature homeostasis facilitation and gas exchange, absorption of exudates. The nanofibers have been used in burn care and have been highly efficient and non-toxic.
Highlights
The importance of the topical distribution of drugs is growing
Anticoagulant activity of scaffolds fabricated with a combination of fucoidan with chitosan and polyvinyl alcohol (PVA) was studied by Zhang et al Results showed that the fucoidan/chitosan/ PVA scaffolds could be used with strong prospects for vascular tissue engineering, with great water absorption efficiency, ample porosity, decreased drug release and low cytotoxicity.[52]
Electrospun nanofibers for topical drug delivery systems There are various desired characteristics offered by electrospun nanofibers i.e. it is ideal for producing fibre mats using natural polymers like silk, ethylcellulose, chitosan, collagen, etc. and artificial polymers like poly (vinyl alcohol and poly.[77] (ii) Fibre mats provide an effective distribution of hydrophilic as well as hydrophobic drugs with large surface-to-volume ratios.[78] (iii) The specification for the product release can be tailored to the therapeutic application by modularizing several parameters, including drug to polymer interaction, diameter of the fibre, morphology and/or porosity.[79]
Summary
The importance of the topical distribution of drugs is growing. The method of topical distribution of pharmaceutical substances is delivered everywhere in the body as topical routes by face, rectum, vaginal, and skin.[1]. Tiwari et al are believed to imitate collagen fibrils.[17] These attributes of nanoparticles boost their tissue permeation and retention effect and increase therapeutic efficacy, contributing to lower toxicity of human cells or tissues.[18,14] Nanofibers can form highly porous meshes, reveal high surface area, strong cell adherence, regulated in vivo biodegradation rate, and used for biomedical applications and wound treatment.
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