Therapeutic drug delivery to the brain remains an unsolved challenge that limits the treatment of neurological and brain diseases, such as Glioblastoma, Parkinson’s and stroke1. The main limitation is in the ability of therapeutic drugs to cross the Blood-Brain Barrier (BBB). The BBB consists of tightly interconnected endothelial cells that form the circumferential interior lining of the walls of the cerebral blood vessels. Generally, BBB’s tight regulation of permeability prevents the entrance of more than the 98% of small molecules including therapeutics.
Currently, the aforementioned limitation limits the treatment of neurological diseases such as Glioblastoma, Parkinson and Stroke. With the lifespan expectancy currently increasing, finding those age-related diseases will be an important achievement for the society.
The overall objective are the detailed studies and understanding of both the intracellular temperature of the BBB endothelial cells temperature needed for the BBB opening and (2) design and synthesis of the nanocomplex capable of generate the temperature needed for the opening and for simultaneously release “in real-time and on-demand” of therapeutic drugs for glioblastoma treatment in vivo.