Injectable 3-D vaccines could fight cancer, infectious diseases
“We can create 3D structures using minimally-invasive delivery to enrich and activate a host’s immune cells to target and attack harmful cells in vivo,” said the study’s senior author David Mooney, Ph.D., who is a Wyss Institute Core Faculty member and the Robert P. Pinkas Professor of Bioengineering at Harvard SEAS. Tiny biodegradable rod-like structures made from silica, known as mesoporous silica rods (MSRs), can be loaded with biological and chemical drug components and then delivered by needle just underneath the skin. The rods spontaneously assemble at the vaccination site to form a three-dimensional scaffold, like pouring a box of matchsticks into a pile on a table…