Add to ORKGCubosome particles were produced by fragmenting a cubic crystalline phase of glycerol monooleate and water in the presence of a stabilizing poly(ethylene oxide)-based polymer. The aim of our investigation was to study the interaction between these particles and mucin to gain information on how they would perform as a vehicle for mucosal drug delivery. Particle electrophoresis was used to investigate the interactions between particles and mucin in solution, and ellipsometry was utilized to study the interactions between particles and mucin-coated silica surfaces. The interaction studies were performed at relevant physiological conditions, and the pH and ionic strength were varied to gain more information about the driving forces for the inte...
The present work concerns interaction between biopolymers at interfaces. Examples from real systems ...
The fate of macromolecules of biological or pharmacological interest that enter the mucus barrier is...
The development of nanoparticles (NPs) for the delivery of therapeutic agents has introduced new opp...
The main components in the mucous gels apart from water are mucins, which are proteins with high mol...
Three series of water-soluble cationic copolymers have been synthesised by free-radical copolymerisa...
Before any drug administered to the gastro-intestinal tract reaches the epithelium, it must traverse...
The development of novel oral drug delivery systems is an expanding area of research and both new ap...
The viscous mucus coating that adheres to the epithelial surfaces of mammalian organs provides prote...
International audienceMucoadhesive materials adhere persistently to mucosal surfaces. A mucoadhesive...
The viscous mucus coating that adheres to the epithelial surfaces of mammalian organs provides prote...
The mucus layers on the internal surfaces of the human body serve as an important barrier against fo...
Drug delivery via the eye, nose, gastrointestinal tract and lung is of great interest as they repres...
Biomolecules in a confined solution environment may be subject to electrostatic forces with a range ...
Mucoadhesion, adhesion of a material to a mucous membrane or a mucus-covered surface, has been emplo...
The present work concerns interaction between biopolymers at interfaces. Examples from real systems ...
The fate of macromolecules of biological or pharmacological interest that enter the mucus barrier is...
The development of nanoparticles (NPs) for the delivery of therapeutic agents has introduced new opp...
The main components in the mucous gels apart from water are mucins, which are proteins with high mol...
Three series of water-soluble cationic copolymers have been synthesised by free-radical copolymerisa...
Before any drug administered to the gastro-intestinal tract reaches the epithelium, it must traverse...
The development of novel oral drug delivery systems is an expanding area of research and both new ap...
The viscous mucus coating that adheres to the epithelial surfaces of mammalian organs provides prote...
International audienceMucoadhesive materials adhere persistently to mucosal surfaces. A mucoadhesive...
The viscous mucus coating that adheres to the epithelial surfaces of mammalian organs provides prote...
The mucus layers on the internal surfaces of the human body serve as an important barrier against fo...
Drug delivery via the eye, nose, gastrointestinal tract and lung is of great interest as they repres...
Biomolecules in a confined solution environment may be subject to electrostatic forces with a range ...
Mucoadhesion, adhesion of a material to a mucous membrane or a mucus-covered surface, has been emplo...
The present work concerns interaction between biopolymers at interfaces. Examples from real systems ...
The fate of macromolecules of biological or pharmacological interest that enter the mucus barrier is...
The development of nanoparticles (NPs) for the delivery of therapeutic agents has introduced new opp...