Highly efficient drug delivery nanosystem via L-phenylalanine triggering based on supramolecular polymer micelles

Macromolecular Rapid Communications

Volumn 32, Issue 6, 2011, Pages 540-545

  Dong, Haiqing ^a   Li, Yongyong ^a   Wen, Huiyun ^a   Xu, Meng ^a   Liu, Lijian ^c   Li, Zhuoquan ^a   Guo, Fangfang ^a   Shi, Donglu ^a,b  

^a TONGJI UNIVERSITY   (China)

^b UNIVERSITY OF CINCINNATI   (United States)

^c WUHAN UNIVERSITY   (China)

Author keywords

cyclodextrin; controlled drug release; ethylcellulose; photodynamic therapy; supramolecular polymer micelles

Indexed keywords

BIOACTIVE AGENTS; CAPROLACTONE; CARCINOMA CELL LINES; CONCENTRATION-DEPENDENT; CONTROLLED DRUG RELEASE; DRUG RELEASE; EFFICIENT DRUG DELIVERY; ETHYLCELLULOSE; HOST-GUESTS; HYDROPHOBIC INTERACTIONS; IN-VITRO; L-PHENYLALANINE; LETHAL EFFECTS; PORPHYRIN-BASED PHOTOSENSITIZER; SUPRAMOLECULAR POLYMERS;

AMINO ACIDS; BIODEGRADABLE POLYMERS; CELL CULTURE; DRUG DELIVERY; DRUG PRODUCTS; HYDROPHOBICITY; MICELLES; NANOSYSTEMS; PHOTOSENSITIZERS; PLASMONS; POLYMERS; PORPHYRINS; SUPRAMOLECULAR CHEMISTRY;

PHOTODYNAMIC THERAPY;

ALPHA CYCLODEXTRIN DERIVATIVE; ALPHA-CYCLODEXTRIN; DELAYED RELEASE FORMULATION; MICELLE; PHENYLALANINE; POLYMER;

BREAST NEOPLASMS; CHEMICAL PHENOMENA; CHEMISTRY; DELAYED RELEASE FORMULATION; DRUG DELIVERY SYSTEM; FEMALE; HUMAN; MCF 7 CELL LINE; MICELLE; NANOTECHNOLOGY;

ALPHA-CYCLODEXTRINS; BREAST NEOPLASMS; DELAYED-ACTION PREPARATIONS; DRUG DELIVERY SYSTEMS; FEMALE; HUMANS; HYDROPHOBIC AND HYDROPHILIC INTERACTIONS; MCF-7 CELLS; MICELLES; NANOTECHNOLOGY; PHENYLALANINE; POLYMERS;

EID: 79952586819     PISSN: 10221336     EISSN: 15213927     Source Type: Journal    
DOI: 10.1002/marc.201000693     Document Type: Article

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