Background: Parkinsonism has a toxic cascade of neurodegeneration, with akinesia as a major manifestation. Some antioxidants have shown promise against the disease. Astaxanthin is a powerful antioxidant, demonstrates free radical scavenging, and is also a potential neuroprotective agent Objective: To formulate astaxanthin laden nanostructured lipid carriers based thermoreversible gel for better neuronal uptake and better neuronal efficacy. Methods: The method for fabricating astaxanthin-nanostructured lipid carriers (ATX-NLC) was melt-emulsification, and these were optimized using factorial design and further evaluated for diverse parameters. Neurotoxicity was induced in rats by haloperidol. The treated and non-treated rats were then witnessed for their behaviour. TBARs and GSH levels were also determined. Pharmacokinetics was studied via HPLC. Results: The average particle size (by DLS), entrapment efficiency and zeta potential of optimized ATX-NLC were 225.6 ± 3.04 nm, 65.91 ± 1.22 % and -52.64 mV respectively. Astaxanthin release (after 24 h in simulated nasal fluid) from optimized ATX-NLC was 92.5 ± 5.42 %. Its thermo-reversible nasal gel (ATX-NLC in-situ gel) was prepared using poloxamer-127. The obtained gel showed in-vivo betterment in the behaviour of animals when studied using rotarod and akinesia test. Pharmacokinetic studies showed better availability of astaxanthin in the brain on the rats treated with ATX-NLC in-situ gel as compared to those treated with ATX-in-situ gel. Conclusion: Astaxanthin loaded lipidic nanoparticulate gel can be a hopeful adjuvant therapy for Parkinsonism and holds scope for future studies.
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