Crossing the barrier: treatment of brain tumors using nanochain particles

Despite advancements in surgery and radiotherapy, the aggressive forms of brain tumors, such as gliomas, are still uniformly lethal with current therapies offering only palliation complicated by significant toxicities. Gliomas are characteristically diffuse with infiltrating edges, resistant to drugs and nearly inaccessible to systemic therapies due to the brain‐tumor barrier. Currently, aggressive efforts are underway to further understand brain‐tumor's microenvironment and identify brain tumor cell‐specific regulators amenable to pharmacologic interventions. While new potent agents are continuously becoming available, efficient drug delivery to brain tumors remains a limiting factor. To tackle the drug delivery issues, a multicomponent chain‐like nanoparticle has been developed. These nanochains are comprised of iron oxide nanospheres and a drug‐loaded liposome chemically linked into a 100‐nm linear, chain‐like assembly with high precision. The nanochain possesses a unique ability to scavenge the tumor endothelium. By utilizing effective vascular targeting, the nanochains achieve rapid deposition on the vascular bed of glioma sites establishing well‐distributed drug reservoirs on the endothelium of brain tumors. After reaching the target sites, an on‐command, external low‐power radiofrequency field can remotely trigger rapid drug release, due to mechanical disruption of the liposome, facilitating widespread and effective drug delivery into regions harbor...
Source: Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology - Category: Nanotechnology Authors: Tags: Advanced Review Source Type: research