Add to ORKGMajor challenges in applying nanomedicine in cancer therapy include the quick clearance of synthetic nanoparticles in the blood and their inefficient diffusion in solid tumors. Polyethylene glycol (PEG) coating is the most commonly used approach to reduce protein adsorption on nanoparticles and extend their circulation in the blood. Unlike the conventional PEG layer, we designed a two-layered hierarchical PEG structure as the topographical surface on nanoparticles. It was found that a primary PEG layer in a dense brush regime and a dynamic outer PEG layer in the mushroom-to-brush transition regime can dramatically prolong the circulation half-lives of conventional PEGylated nanoparticles. Further studies revealed that the outer PEG layer do...
Active targeting of nanoparticles through surface functionalization is a common strategy to enhance ...
For circulating nanoparticulate (NP) drug carriers to reach tumors, they need to avoid opsonization ...
Cancer therapies aim to eliminate malignant tumor tissues that grow uncontrollably within patients. ...
Research into long-circulating nanoparticles has in the past focused on reducing their clearance by ...
Aim: Delivery of nanoparticles (NPs) to tumors can be impeded by high levels of hyaluronan (HA) in t...
Cancer is one of today’s most common causes of human mortality. For long, chemotherapeutics has been...
Nanotechnology applications in medicine, termed as nanomedicine, have introduced a number of nanopar...
Recently, polymeric nanocarriers with shielding surfaces, e.g., poly(ethylene glycol) and small mole...
The development and application of nanoparticles as in vivo delivery vehicles for therapeutic and/or...
The development and application of nanoparticles as <i>in vivo</i> delivery vehicles for therapeutic...
Optimizing the interface between nanoparticles (NPs) and the biological environment at various level...
Optimizing the interface between nanoparticles (NPs) and the biological environment at various level...
Active targeting of nanoparticles through surface functionalization is a common strategy to enhance ...
Active targeting of nanoparticles through surface functionalization is a common strategy to enhance ...
Active targeting of nanoparticles through surface functionalization is a common strategy to enhance ...
Active targeting of nanoparticles through surface functionalization is a common strategy to enhance ...
For circulating nanoparticulate (NP) drug carriers to reach tumors, they need to avoid opsonization ...
Cancer therapies aim to eliminate malignant tumor tissues that grow uncontrollably within patients. ...
Research into long-circulating nanoparticles has in the past focused on reducing their clearance by ...
Aim: Delivery of nanoparticles (NPs) to tumors can be impeded by high levels of hyaluronan (HA) in t...
Cancer is one of today’s most common causes of human mortality. For long, chemotherapeutics has been...
Nanotechnology applications in medicine, termed as nanomedicine, have introduced a number of nanopar...
Recently, polymeric nanocarriers with shielding surfaces, e.g., poly(ethylene glycol) and small mole...
The development and application of nanoparticles as in vivo delivery vehicles for therapeutic and/or...
The development and application of nanoparticles as <i>in vivo</i> delivery vehicles for therapeutic...
Optimizing the interface between nanoparticles (NPs) and the biological environment at various level...
Optimizing the interface between nanoparticles (NPs) and the biological environment at various level...
Active targeting of nanoparticles through surface functionalization is a common strategy to enhance ...
Active targeting of nanoparticles through surface functionalization is a common strategy to enhance ...
Active targeting of nanoparticles through surface functionalization is a common strategy to enhance ...
Active targeting of nanoparticles through surface functionalization is a common strategy to enhance ...
For circulating nanoparticulate (NP) drug carriers to reach tumors, they need to avoid opsonization ...
Cancer therapies aim to eliminate malignant tumor tissues that grow uncontrollably within patients. ...