Biomimetic virus-like mesoporous silica nanoparticles improved cellular internalization for co-delivery of antigen and agonist to enhance Tumor immunotherapy

Abstract: Nanocarrier antigen-drug delivery system interacts specifically with immune cells and provides intelligent delivery modes to improve antigen delivery efficiency and facilitate immune progression. However, these nanoparticles often have weak adhesion to cells, followed by insufficient cell absorption, leading to a failed immune response. Inspired by the structure and function of viruses, virus-like mesoporous silica nanoparticles (VMSNs) were prepared by simulating the surface structure, centripetal-radialized … Show more

“…38 Gao et al conducted histological evaluations, confirming clear tissue structures without evident abnormalities, injuries, or inflammation post-administration of silica nanoparticles. 41 These collective findings demonstrate the non-toxic nature of spiky SNP post-administration, emphasizing their promising diagnostic and therapeutic potential.…”

ZIF-90-decorated silica nanoparticles with a spiky surface: a novel approach to drug delivery

“…38 Gao et al conducted histological evaluations, confirming clear tissue structures without evident abnormalities, injuries, or inflammation post-administration of silica nanoparticles. 41 These collective findings demonstrate the non-toxic nature of spiky SNP post-administration, emphasizing their promising diagnostic and therapeutic potential.…”

ZIF-90-decorated silica nanoparticles with a spiky surface: a novel approach to drug delivery

Facile synthesis of monodispersed mesoporous silica nanoparticles with ultra-large mesopores through a NaBH4-assisted hydrothermal process

Enhancing glioma-specific drug delivery through self-assembly of macrophage membrane and targeted polymer assisted by low-frequency ultrasound irradiation