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Annals of Biomedical Engineering
Volumn 41, Issue 1, 2013, Pages 68-77
Cationic nanoparticles have superior transvascular flux into solid tumors: Insights from a mathematical model
Author keywords

Cancer therapy; Electrostatic and hydrodynamic interactions; Nanomedicine; Surface charge density; Vascular permeability
Indexed keywords

CANCER THERAPY; CATIONIC CHARGES; CATIONIC NANOPARTICLES; CLINICAL USE; ELECTROSTATIC ATTRACTIONS; ELECTROSTATIC REPULSION; HYDRODYNAMIC INTERACTION; INTERSTITIAL SPACE; LARGE PARTS; MODEL PREDICTION; NANO SCALE; NANOPARTICLE FORMULATION; NANOPARTICLE SIZES; OPTIMAL DESIGN; SOLID TUMORS; VASCULAR PERMEABILITY; VESSEL WALLS;
EID: 84871632852     PISSN: 00906964     EISSN: 15739686     Source Type: Journal    
DOI: 10.1007/s10439-012-0630-4     Document Type: Article
Times cited : (124)
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