Novel Approaches and Applications of Nanotechnology in the Delivery of Topical Drugs for Psoriasis via Nanocarriers

Abstract

Psoriasis is a non-contagious, continuing, auto-immune disease that mostly affects the skin, and about 2%-3% of the world's population suffers from it. In this review article, the primary focus is on the strategies involved in conventional therapies and the latest advances that have been recorded in metallic nano, polymer-based, and lipid-based formulations in the spectrum of anti-psoriatic drugs. Liposomes, ethosomes, solid lipid nanoparticles, micelles, and dendrimers are only some of the nanocarrier systems that have been extensively researched in relation to their potential use in nano formulations. This study incorporates patent applications that illustrate the nanoparticle's function in treating psoriasis. Hence, on the basis of an extensive literature survey, it is concluded that nano-formulations are a promising medium to treat a disease like psoriasis as they offer enhanced penetration, target-specific delivery, and improved efficacy. When applied to the study of biological systems and the development of novel medical technologies, nanobiotechnology offers potentially promising possibilities for the efficient use of nanoscale materials and processes. In this approach, nanotechnology and biotechnology are combined in order to develop nanoscale devices, materials, and systems that can be used for the diagnosis, treatment, and prevention of psoriasis. The future of the therapeutic effect of antipsoriatic drugs is dependent on both the benefits they have the ability to bring and the progress being made in the mass production of these carriers. Researching novel carrier systems or combination therapies is essential, but so is working to scale up existing technologies so they may be commercialised and used to benefit society at large.