Add to ORKGNanoparticulate drug delivery systems (nDDS) offer a variety of options when it comes to routes of administration. One possible path is crossing mucosal barriers, such as in the airways and in the GI tract, for systemic distribution or local treatment. The main challenge with this administration route is that the size and surface properties of the nanoparticles, as opposed to small molecular drugs, very often results in mucosal capture, immobilization and removal, which in turn results in a very low bioavailability. Strategies to overcome this challenge do exist, like surface ‘stealth’ modification with PEG. Here we review an alternative or supplemental strategy, co-association of mucus modulating agents with the nDDS to improve bioavailabi...
Mucus, which is secreted by the goblet cells of enterocytes, constitutes the first obstacle encounte...
Non-parenteral drug delivery systems using biomaterials have advantages over traditional parenteral ...
Before any drug administered to the gastro-intestinal tract reaches the epithelium, it must traverse...
Mucosal administration of drugs and drug delivery systems has gained increasing interest. However, n...
Abstract Oral delivery of therapeutics is the preferred route of administration due t...
Oral delivery is the easiest and most used method of drug delivery. However, the gastrointestinal (G...
Efficient mucosal delivery remains a major challenge for the reason of the respiratory tract mucus a...
Achieving sustained drug delivery to mucosal surfaces is a major challenge due to the presence of th...
Mucus is a highly hydrated viscoelastic gel present on various moist surfaces in our body including ...
Orally administered therapeutic agents need to cross the mucosal epithelial membrane in the intesti...
Introduction Nano-scale formulations are being developed to improve the delivery of orally administ...
Transmucosal administration offers numerous advantages for drug delivery as it usually helps to avoi...
Mucus-penetrating Nanosuspensions, consisting of pure hydrophobic therapeutics with dense muco-inert...
Mucus is a complex barrier for pharmacological treatments and overcoming it is one of the major chal...
Peptides and proteins have gained increased interest as therapeutics during the recent years due to ...
Mucus, which is secreted by the goblet cells of enterocytes, constitutes the first obstacle encounte...
Non-parenteral drug delivery systems using biomaterials have advantages over traditional parenteral ...
Before any drug administered to the gastro-intestinal tract reaches the epithelium, it must traverse...
Mucosal administration of drugs and drug delivery systems has gained increasing interest. However, n...
Abstract Oral delivery of therapeutics is the preferred route of administration due t...
Oral delivery is the easiest and most used method of drug delivery. However, the gastrointestinal (G...
Efficient mucosal delivery remains a major challenge for the reason of the respiratory tract mucus a...
Achieving sustained drug delivery to mucosal surfaces is a major challenge due to the presence of th...
Mucus is a highly hydrated viscoelastic gel present on various moist surfaces in our body including ...
Orally administered therapeutic agents need to cross the mucosal epithelial membrane in the intesti...
Introduction Nano-scale formulations are being developed to improve the delivery of orally administ...
Transmucosal administration offers numerous advantages for drug delivery as it usually helps to avoi...
Mucus-penetrating Nanosuspensions, consisting of pure hydrophobic therapeutics with dense muco-inert...
Mucus is a complex barrier for pharmacological treatments and overcoming it is one of the major chal...
Peptides and proteins have gained increased interest as therapeutics during the recent years due to ...
Mucus, which is secreted by the goblet cells of enterocytes, constitutes the first obstacle encounte...
Non-parenteral drug delivery systems using biomaterials have advantages over traditional parenteral ...
Before any drug administered to the gastro-intestinal tract reaches the epithelium, it must traverse...