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Poly( N-vinylpyrrolidone)-block-poly( d,l-lactide) as a new polymeric solubilizer for hydrophobic anticancer drugs: in vitro and in vivo evaluation
Ist Teil von
Journal of controlled release, 2004-09, Vol.99 (1), p.83-101
Ort / Verlag
Amsterdam: Elsevier B.V
Erscheinungsjahr
2004
Quelle
Elsevier ScienceDirect Journals
Beschreibungen/Notizen
The majority of novel anticancer drugs developed to date are intended for parenteral administration. Paradoxically, most of these drugs are water-insoluble, delaying their clinical development. A common approach to confering water solubility to drugs is to use amphiphilic, solubilizing agents, such as polyethoxylated castor oil (e.g., Cremophor® EL, CrmEL). However, these vehicles are themselves associated with a number of pharmacokinetic and pharmaceutical concerns. The present work is aimed at evaluating a novel polymeric solubilizer for anticancer drugs, i.e., poly(
N-vinylpyrrolidone)-block-poly(
d,l-lactide) (PVP-b-PDLLA). This copolymer self-assembles in water to yield polymeric micelles (PM) that efficiently solubilize anticancer drugs, such as paclitaxel (PTX), docetaxel (DCTX), teniposide (TEN) and etoposide (ETO). A PM-PTX formulation was evaluated, both, in vitro on three different cancer cell lines and in vivo for its safety, pharmacokinetics, biodistribution and antitumor activity. In vitro, cytotoxicity studies revealed that the drug-loaded PM formulation was equipotent to the commercial PTX formulation (Taxol®). In the absence of drug, PVP-b-PDLLA with 37% DLLA content was less cytotoxic than CrmEL. In vivo, acute toxicity was assessed in mice after a single injection of escalating dose levels of formulated PTX. PM-PTX was well tolerated and the maximum tolerated dose (MTD) was not reached even at 100 mg/kg, whereas the MTD of Taxol® was established at 20 mg/kg. At 60 mg/kg, PM-PTX demonstrated greater in vivo antitumor activity than Taxol® injected at its MTD. Finally, it was shown in mice and rabbits that the areas under the plasma concentration–time curves were inversely related to PM drug loading.