Harnessing the nano-bio interface: Application of membrane coating to long acting silica particles.

Interaction of conventional drug delivery systems such as polymeric or lipid based nano- and microparticles with the in vivo milieu has garnered significant interest, primarily to orchestrate immune escape and/or improve targeting. Surface modification with targeting ligands has been heavily relied upon for the mentioned purpose in the recent years. However, the surface modified particles can also activate the immune system. Large-scale manufacturing can also be a challenge, as surface modification needs to be reproducible. Furthermore, in vivo, the targeting is dependent on the receptor expression density and number of target sites, which adds to the pharmacokinetic variability of the constructs. An evolving paradigm to overcome complications of surface functionalization is the incorporation of bio-inspired topographies into these conventional delivery systems to enable them to better interact with biological systems. Biomimetic delivery systems combine the unique surface composition of cells or cell membranes, and versatility of synthetic nanoparticles. In this review, we focus on one such delivery system, silica particles, and explore their interaction with different biological membranes.