Natural Binary Herbal Small Molecules Self-Assembled Nanogel for Synergistic Inhibition of Respiratory Syncytial Virus

values changed from 310.83 μM for EPH and 262.88 μM for GA to 68.25 μM for the EPH-GA combination, with a combination index of 0.458. In addition, the in vivo biopharmaceutic process of GA and EPH was investigated, revealing that the oral administration of EPH-GA significantly increased the bioavailability of EPH while maintaining its plasma concentration at a relatively stable level. This enhancement may contribute to a synergistic antiviral effect when combined with GA. Furthermore, the in vivo process of EPH-GA demonstrates the advantage of delivering the drug to the lesion at elevated levels, thereby facilitating its antiviral mechanism at the cellular level. In this study, we identified an effective nanomedicine, EPH-GA nanogel, which can inhibit the proliferation of RSV and mitigate lung lesions resulting from viral infection by influencing the biopharmaceutical process in vivo. This research not only offers a novel strategy for the nanomedicine treatment of RSV but also elucidates, to some extent, the compatibility mechanisms of the multicomponents of traditional Chinese medicine.