Effect of Montelukast Sodium and Graphene Oxide Nanomaterials on Mouse Asthma Model

Because some asthma patients have different types of inflammatory cells in their bodies, they cannot get relief with traditional drugs. However, the nano drug delivery system can realize efficient drug delivery, inflammatory cells and intracellular targeting, and the apoptosis of inflammatory cells. This article aims to comprehensively evaluate the effects of montelukast sodium combined with graphene oxide nanomaterials on improving the clinical symptoms and airway inflammation of children with bronchial asthma, with a view to further improving the clinical treatment of children with bronchial asthma. The results show that montelukast sodium can improve lung function in patients with asthma, and also has important effects such as anti-inflammatory and regulating immune function. After exposure to graphene oxide, the level of oxidative stress in mice increased with brightness and humidity, demonstrating the role of T oxidative stress in the development of asthma. In addition, nanocarriers assist co-loaded drugs to deepen and enrich the pulmonary inflammation site, further achieving effective mitochondrial targeted drug delivery, thereby enhancing the inhibitory effect of anti-apoptotic proteins, leading to inflammatory cell apoptosis.