Novel paclitaxel formulations solubilized by parenteral nutrition nanoemulsions for application against glioma cell lines.

Najlah, Mohammad and Kadam, Alisha and Wan, Ka-Wai and Ahmed, Waqar and Taylor, Kevin M. G. and Elhissi, Abdelbary M. A. (2016) Novel paclitaxel formulations solubilized by parenteral nutrition nanoemulsions for application against glioma cell lines. International Journal of Pharmaceutics, 506 (1-2). pp. 102-109. ISSN 1873-3476

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Official URL: http://dx.doi.org/10.1016/j.ijpharm.2016.04.027

Abstract

The aim of this study is to investigate using nanoemulsion formulations as drug-delivery vehicles of paclitaxel (PX), a poor water-soluble anticancer drug. Two commercially available nanoemulsion fat formulations (Clinoleic 20% and Intralipid 20%) were loaded with PX and characterised based on their size, zeta potential, pH and loading efficiency. The effect of formulation on the cytotoxicity of PX was also evaluated using MTT assay. The droplet size of the Clinoleic emulsion increased from 254.1nm to 264.7nm when paclitaxel (6mg/ml) was loaded into the formulation, compared to the drug-free formulation. Similarly, the droplet size of Intralipid increased from 283.3 to 294.6nm on inclusion of 6mg/ml paclitaxel. The Polydispersity Indexes (PDIs) of all the nanoemulsion formulations (Clinoleic and Intralipid) were less than 0.2 irrespective of paclitaxel concentration indicating that all nanoemulsion formulations used were homogeneously sized. The pH range for the Clinoleic formulations (7.1-7.5) was slightly higher than that of the Intralipid formulations (6.5-6.9). The zeta potential of linoleic had a greater negative value than that of Intralipid. Loading efficiencies for paclitaxel were 70.4-80.2% and 44.2-57.4% for Clinoleic and Intralipid formulations, respectively. Clinoleic loaded with paclitaxel decreased the viability of U87-MG cell to 6.4±2.3%, compared to Intralipid loaded with paclitaxel (21.29±3.82%). Both nanoemulsions were less toxic to the normal glial cells (SVG-P12), decreasing the cell viability to 25-35%. This study suggests that nanoemulsions are useful and potentially applicable vehicles of paclitaxel for treatment of glioma.

Item Type: Journal Article
Keywords: Droplet size, Nanoemulsion, Paclitaxel, Stability, Anticancer, MTT assay
Faculty: ARCHIVED Faculty of Medical Science (until September 2018)
Depositing User: Dr Mohammad Najlah
Date Deposited: 20 Jun 2016 11:18
Last Modified: 14 Nov 2019 16:12
URI: http://arro.anglia.ac.uk/id/eprint/700066

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