Advances in Phytochemical-based Nanocarrier Approaches for Rheumatoid Arthritis: Challenges and Scope for Future-generation Formulations.

The study aims to investigate and assess the effectiveness of current novel techniques for the preparation of an efficient nanocarrier system in resolving the drawbacks associated with the delivery of herbal bioactives to treat rheumatoid arthritis. Systematic utilization of various search engines like Science Direct, Pubmed, Shodhganga, Google Scholar, and Google Patent databases based on various sets of key phrases has been performed. All the findings from these data have been studied and briefed based on their relevant and irrelevant information. The current study summarizes the existing research and development of new nano-formulations with a focus on herbal bioactive compounds for treating rheumatoid arthritis. Physicochemical properties of phytoconstituents, such as low aqueous solubility, low permeation coefficient, and chemical instability, poor bioavailability, short plasma half-life, and ultimately sub-therapeutic efficacy, limit their clinical translation despite their great potency. The utilization of Phytochemical-Based Nanocarrier Approaches for rheumatoid arthritis can be a milestone as a major population is affected by this disease worldwide. The intensive study recapitulates that novel drug delivery systems can provide new opportunities to efficiently deliver herbal bioactives with improved pharmacokinetic and pharmacodynamic properties. The exhaustive study concluded that transferosomes, ethosomes, transethosomes, niosomes, phytosomes, Solid Lipid Nanoparticles (SLN), Nano Lipid Carriers (NLC), bilosomes and hylurosomes are some of the efficient nanocarrier systems that may impart numerous benefits to the delivery of herbal bioactives for treatment of RA. These nanocarrier systems fabricated with phytoconstituents flaunt the evident promising benefits of improved aqueous solubility, low first-pass metabolism with upgraded bioavailability, sustained release action, resistance to enzymatic degradation etc., providing support in rheumatoid arthritis recovery. This review discusses that the upgradation of the pharmacological action and other relevant issues of herbal bioactives are possible by utilizing novel drug delivery systems, resulting in successful development of nano-loaded herbal bioactives. It also focuses on highlighting the pioneering progression in the field of herbal bioactives-loaded nanocarrier systems for rheumatoid arthritis both and along with their advanced preparation methods and applications and discussing the opportunities for further prospects. This compiled informative review will enlighten various researchers in the field of delivering herbal bioactives for rheumatoid arthritis.