RESUMEN
Lung cancer is the second deadliest disease in the world. A major portion of deaths related to cancer are due to lung cancer in both males and females. Interestingly, unbelievable advances have occurred in recent years through the use of nanotechnology and development in both the diagnosis and treatment of lung cancer. Due to their in vivo stability, the nanotechnology-based pharmacological system gained huge attractiveness, solubility, absorption from the intestine, pharmacological effectiveness, etc. of various anticancer agents. However, this field needs to be utilized more to get maximum results in the treatment of lung cancer, along with wider context medicines. In the present review, authors have tried to concentrate their attention on lung cancer`s difficulties along with the current pharmacological and diagnostic situation, and current advancements in approaches based on nanotechnology for the treatment and diagnosis of lung cancer. While nanotechnology offers these promising avenues for lung cancer diagnosis and treatment, it is important to acknowledge the need for careful evaluation of safety, efficacy, and regulatory approval. With continued research and development, nanotechnology holds tremendous potential to revolutionize the management of lung cancer and improve patient outcomes. The review also highlights the involvement of endocrine systems, especially estrogen in lung cancer proliferation. Some of the recent clinical trials and patents on nanoparticle-based formulations that have applications in the treatment and diagnosis of lung cancer are also discussed.
RESUMEN
BACKGROUND: Rheumatoid arthritis (RA) is a chronic autoimmune disease, progressively distinctive via cartilage destruction, auto-antibody production, severe joint pain, and synovial inflammation. Nanotechnology represents as one of the utmost promising scientific technologies of the 21st century. It exhibits remarkable potential in the field of medicine, including imaging techniques and diagnostic tools, drug delivery systems and providing advances in treatment of several diseases with nanosized structures (less than 100nm). OBJECTIVE: Conventional drugs as a cornerstone of RA management including disease-modifying antirheumatic drugs (DMARDS), Glucocorticosteroids, etc are under clinical practice. Nevertheless, their low solubility profile, poor pharmacokinetics behaviour, and non-targeted distribution not only hamper their effectiveness, but also give rise to severe adverse effects which leads to the need for the emergence of nanoscale drug delivery systems. METHODS: Several types of nano-diagnostic agents and nanocarriers have been identified; including polymeric nanoparticles (NPs), liposomes, nanogels, metallic NPs, nanofibres, carbon nanotubes, nano fullerene etc. Various patents and clinical trial data have been reported in relevance to RA treatment. RESULTS: Nanocarriers, unlike standard medications, encapsulate molecules with high drug loading efficacy and avoid drug leakage and burst release before reaching the inflamed sites. Because of its enhanced targeting specificity with the ability to solubilise hydrophobic drugs, it acts as an enhanced drug delivery system. CONCLUSION: This study explores nanoparticles potential role in RA as a carrier for site-specific delivery and its promising strategies to overcome the drawbacks. Hence, it concludes that nanomedicine is advantageous compared with conventional therapy to enhanced futuristic approach.