Anam Khan scite author profile

The aim of the present work was to investigate the efficacy of temozolomide nanostructured lipid carriers (TMZ-NLCs) to enhance brain targeting via nasal route administration. The formulation was optimized by applying a four-factor, three-level Box-Behnken design. The developed formulations and the functional relationships between their independent and dependent variables were observed. The independent variables used in the formulation were gelucire (X), liquid lipid/total lipid (X), Tween 80 (X), and sonication time (X), and their effects were observed with regard to size (Y), % drug release (Y), and drug loading (Y). The optimized TMZ-NLC was further evaluated for its surface morphology as well as ex vivo permeation and in vivo studies. All TMZ-NLC formulations showed sizes in the nanometer range, with high drug loading and prolonged drug release. The optimized formulation (TMZ-NLCopt) showed an entrapment efficiency of 81.64 ± 3.71%, zeta potential of 15.21 ± 3.11 mV, and polydispersity index of less than 0.2. The enhancement ratio was found to be 2.32-fold that of the control formulation (TMZ-disp). In vivo studies in mice showed that the brain/blood ratio of TMZ-NLCopt was found to be significantly higher compared to that of TMZ-disp (intranasal, intravenous). Scintigraphy images of mouse brain showed the presence of a high concentration of TMZ. The AUC ratio of TMZ-NLCopt to TMZ-disp in the brain was the highest among the organs. The findings of this study substantiate the existence of a direct nose-to-brain delivery route for NLCs.

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Temozolomide loaded nano lipid based chitosan hydrogel for nose to brain delivery: Characterization, nasal absorption, histopathology and cell line study

Khan

Aqil

Imam

et al. 2018

International Journal of Biological Macromolecules

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Nanostructured lipid carriers of pioglitazone for transdermal application: from experimental design to bioactivity detail

et al. 2014

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Pioglitazone (PZ) an anti-hyperglycemic agent is used in the treatment of type 2 diabetes. The aim of this study was to design PZ-loaded nanostructured lipid carriers (NLC) to investigate the bioavailability improvement by transdermal delivery. PZ NLCs were prepared using highpressure homogenization followed by ultrasonication. The NLCs were evaluated for particle size analysis, drug loading, ex vivo skin transport studies and in vivo bioactivity study. The prepared NLCs had a mean size of 166.05 nm and drug loading of 10.41% with flux value of 47.36 mg/cm 2 /h. The entrapment of PZ is 470% in the NLCs with enhancement ratio of 3.2 times. The in vivo pharmacokinetic study showed 2.17 times enhancement in bioavailability study and pharmacodynamics study showed that PZ NLC-based transdermal therapeutic system (PNLG-TTS) lowers blood sugar level in a sustained pattern for a prolonged period of time as compared to Piosys tablet (marketed). The shelf life of the optimized formulation was found to be 1.83 years. These results clearly provide a lead that above NLCs-based TTS is potential controlled release formulation for PZ and could be a promising drug delivery system for the treatment of diabetes.

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Drug delivery to macrophages: a review of nano-therapeutics targeted approach for inflammatory disorders and cancer

Mukhtar

Ali

Ahmed

et al. 2020

Expert Opinion on Drug Delivery

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Development, in vitro and in vivo evaluation of miltefosine loaded nanostructured lipid carriers for the treatment of Cutaneous Leishmaniasis

Khan

Din

Ali

et al. 2021

International Journal of Pharmaceutics

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Anam Khan

Brain Targeting of Temozolomide via the Intranasal Route Using Lipid-Based Nanoparticles: Brain Pharmacokinetic and Scintigraphic Analyses

Temozolomide loaded nano lipid based chitosan hydrogel for nose to brain delivery: Characterization, nasal absorption, histopathology and cell line study

Nanostructured lipid carriers of pioglitazone for transdermal application: from experimental design to bioactivity detail

Drug delivery to macrophages: a review of nano-therapeutics targeted approach for inflammatory disorders and cancer

Development, in vitro and in vivo evaluation of miltefosine loaded nanostructured lipid carriers for the treatment of Cutaneous Leishmaniasis

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