Paracellular permeability throughout epithelial and endothelial cells is largely regulated by apical intercellular junctions additionally known as the tight junctions (TJs). These junctions contribute to the spatial definition of various tissue compartments inside organisms separating from the skin world in addition to from inside compartments with their major physiological position sustaining tissue homeostasis. TJs limit the free, passive diffusion of ions and hydrophilic small molecules by paracellular clefts and are necessary for correct cell polarization and transporter protein localisation supporting the managed transcellular diffusion of smaller and bigger hydrophilic in addition to hydrophobic substances. This conventional diffusion limitations idea of TJs has been challenged these days owing to a greater understanding of the parts which can be related to TJs. It’s now well-established that mutations in TJs proteins are related to a spread of human ailments and that the change within the membrane fluidity of neighbouring cells can open prospects for therapeutics to cross intercellular junctions. Nanotechnological approaches exploiting ultrasound or hyperosmotic brokers and permeation enhancers are the paradigm for enhanced paracellular diffusion. The opposite extensively used transport route of medicine is through transcellular transport permitting the passage of a wide range of pro-drugs and nanoparticles-encapsulated medication through completely different mechanisms primarily based on receptors and others. The hope was for a very long time that lipidic nanocarriers and polymeric nanostructures may revolutionize the sphere for the supply of RNA and protein-based therapeutics throughout completely different organic limitations geared up with TJs (e.g. blood–mind barrier (BBB), retina-blood barrier (RBB), corneal TJs and so forth). Nevertheless, solely a restricted enhance in therapeutic effectivity has been reported for many methods till now. The aim of this assessment is to discover the explanations behind the present failures and to look at the emergence of artificial and cell-derived nanomaterials and nanotechnological approaches as potential game-changers in enhancing drug supply to focus on each at and throughout TJs utilizing modern ideas. Particularly, we’ll give attention to current developments in numerous nanotechnological methods enabling the bypassing or temporally opening of TJs to the mind and to the retina, and talk about their benefits and limitations.