Hollow Mesoporous Silica Nanoparticles Loaded with Eugenol for Regulating the Central Nervous System

Abstract

Fragrances are extensively applied in food, daily chemicals, tobacco and medicine industries. However, too strong volatility of fragrances results in a fast release rate, thereby reducing the usage time of aromatherapy products. Although loading fragrances into nanomaterials is capable of slowing their rates of release, the encapsulation efficiency of traditional nanomaterials is very low, and the nanomaterials themselves are not stable. Herein, hollow mesoporous silica nanoparticles (hMSNs) were designed for encapsulation of eugenol and the nano-fragrance was named EG@hMSNs. The structure of hMSNs was stable and the encapsulation rate of eugenol reached 46.5%. Besides, EG@hMSNs could significantly slow the release rate of eugenol. Subsequently, the EG@hMSNs were testified that they had positive roles in stress relief by open field tests. The molecular mechanisms of these positive effects on the central nervous system were then explored. Furthermore, the preparation method of hMSCs was simple, and the preparation cost was low. Therefore, EG@hMSNs are expected to be industrially produced and have a great application prospect.