Rahman Md Moshikur scite author profile

Ionic liquid (IL)-based drug delivery systems have attracted considerable interest owing to their intrinsic tunability and ability to transport small or large molecules through the skin. However, the development of "green" ILs remains challenging. Herein, eight potentially "green" fatty acid-based amino acid ILs (FAAAE-ILs) were synthesized, and their potency in transdermal drug delivery was investigated using ibuprofen and a peptide drug. The synthesized ILs were characterized to evaluate their physicochemical, thermal, and biological (cytotoxicity) properties. The in vitro skin permeability of the synthesized FAAAE-ILs was evaluated through pig skin. All of the FAAAE-ILs are liquid at room temperature and freely miscible with pharmaceuticals-permitted solvents/agents (e.g., isopropyl myristate (IPM), Span-20, and DMSO). In vitro cytotoxicity study showed that the cell viability of all FAAAE-ILs (10% in IPM) was at least 10 times lower than that for a conventional chemical permeation enhancer (CPE), sodium lauryl sulfate. FAAAE-ILs facilitated excellent ibuprofen solubility through multiple hydrogen bonding interactions between the drug and the ILs. An in vitro permeation study showed that the FAAAE-ILs were more effective in enhancing the permeability of drug molecules than the conventional CPE transcutol. The linoleate-based ILs showed a higher degree of permeation than the oleatebased ILs. Among the linoleate-based ILs and ibuprofen formulations (drug in 10% IL in IPM), the L-proline ethyl ester linoleate ([L-ProEt][Lin])-based formulation exhibited best results, followed by β-alanine ethyl ester linoleate, D-proline ethyl ester linoleate, and L-leucine ethyl ester linoleate after 48 h. Interestingly, the same FAAAE-IL ([L-ProEt][Lin])-containing formulation showed significant enhancement of peptide penetration across pig skin compared with CPE-containing formulations (10% in IPM). The results demonstrate that the FAAAE-IL is a promising green alternative to conventional CPEs for the transdermal delivery of small and large therapeutic molecules.

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Ionic-Liquid-Based Paclitaxel Preparation: A New Potential Formulation for Cancer Treatment

Chowdhury

et al. 2018

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Paclitaxel (PTX) injection (i.e., Taxol) has been used as an effective chemotherapeutic treatment for various cancers. However, the current Taxol formulation contains Cremophor EL, which causes hypersensitivity reactions during intravenous administration and precipitation by aqueous dilution. This communication reports the preliminary results on the ionic liquid (IL)-based PTX formulations developed to address the aforementioned issues. The formulations were composed of PTX/cholinium amino acid ILs/ethanol/Tween-80/water. A significant enhancement in the solubility of PTX was observed with considerable correlation with the density and viscosity of the ILs, and with the side chain of the amino acids used as anions in the ILs. Moreover, the formulations were stable for up to 3 months. The driving force for the stability of the formulation was hypothesized to be the involvement of different types of interactions between the IL and PTX. In vitro cytotoxicity and antitumor activity of the IL-based formulations were evaluated on HeLa cells. The IL vehicles without PTX were found to be less cytotoxic than Taxol, while both the IL-based PTX formulation and Taxol exhibited similar antitumor activity. Finally, in vitro hypersensitivity reactions were evaluated on THP-1 cells and found to be significantly lower with the IL-based formulation than Taxol. This study demonstrated that specially designed ILs could provide a potentially safer alternative to Cremophor EL as an effective PTX formulation for cancer treatment giving fewer hypersensitivity reactions.

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Characterization and cytotoxicity evaluation of biocompatible amino acid esters used to convert salicylic acid into ionic liquids

Moshikur

Chowdhury

Wakabayashi

et al. 2018

International Journal of Pharmaceutics

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