900842
Poly(ethylene glycol) methyl ether-block-poly(lactide-co-glycolide)
PEG average Mn 5,000, PLGA Mn 15,000, lactide:glycolide 80:20
Sinonimo/i:
PEG-PLGA, Polyethylene glycol, mPEG-b-PLGA
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Cambia visualizzazione
1 G
CHF 265.00
About This Item
Formula condensata:
H[(C3H4O2)x(C2H2O2)y]mO[C2H4O]nCH3
Codice UNSPSC:
12352112
NACRES:
NA.23
Prodotti consigliati
Stato
crystals
Livello qualitativo
Rapporto d’alimentazione
lactide:glycolide 80:20
PM
PEG average Mn 5,000
PLGA Mn 15,000
Impurezze
≤500 ppm (GC)
Temperatura di conservazione
−20°C
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Categorie correlate
Descrizione generale
Contains ≤500 ppm impurities by GC, including trace monomer and residual organics.
Applicazioni
Biocompatible block copolymer can be used in the formation of nanoparticles for drug delivery. Potential use in the targeted and/or controlled release of cancer drugs, anti-inflammatory drugs, antibiotics, or anesthetic agents.
Codice della classe di stoccaggio
11 - Combustible Solids
Classe di pericolosità dell'acqua (WGK)
WGK 3
Punto d’infiammabilità (°F)
Not applicable
Punto d’infiammabilità (°C)
Not applicable
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Fabienne Danhier et al.
Journal of controlled release : official journal of the Controlled Release Society, 133(1), 11-17 (2008-10-28)
The purpose of this study was to develop Cremophor EL-free nanoparticles loaded with Paclitaxel (PTX), intended to be intravenously administered, able to improve the therapeutic index of the drug and devoid of the adverse effects of Cremophor EL. PTX-loaded PEGylated
Yihan Xu et al.
Journal of biomedical materials research. Part B, Applied biomaterials, 105(6), 1692-1716 (2016-04-22)
Poly (lactic-co-glycolic acid) (PLGA) copolymers have been broadly used in controlled drug release applications. Because these polymers are biodegradable, they provide an attractive option for drug delivery vehicles. There are a variety of material, processing, and physiological factors that impact
R Gref et al.
Science (New York, N.Y.), 263(5153), 1600-1603 (1994-03-18)
Injectable nanoparticulate carriers have important potential applications such as site-specific drug delivery or medical imaging. Conventional carriers, however, cannot generally be used because they are eliminated by the reticulo-endothelial system within seconds or minutes after intravenous injection. To address these
Miles A Miller et al.
Nature communications, 6, 8692-8692 (2015-10-28)
Therapeutic nanoparticles (TNPs) aim to deliver drugs more safely and effectively to cancers, yet clinical results have been unpredictable owing to limited in vivo understanding. Here we use single-cell imaging of intratumoral TNP pharmacokinetics and pharmacodynamics to better comprehend their
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