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Volume 7

Pharmaceutical Regulatory Affairs: Open Access

ISSN: 2167-7689

Pharma Europe 2018

May 07-09, 2018

May 07-09, 2018 | Frankfurt, Germany

15

th

Annual European Pharma Congress

Preparation, characterization and

in vivo

antiplasmodial activity of magnesium oxide nanoparticles

on

Plasmodium berghei

infected mice

Hadiza A M, D W Taura

and

Bashir Muhammad

Bayero University Kano, Nigeria

T

he search for new antimalarial agents remain an illusion to some extent in the global fight against antimalarial drug

resistance. Malarial treatments now have taken a toll from single dose regimen to combinations of drugs over a period of

three days to intravenous or intra muscular injections for three days followed by oral treatment for another three days. This

change is surely a problem and fuels the search for newer and more rapid antimalarial agents. In this research, the potentials

of magnesium oxide (MgO) nanoparticles were discovered to the fullest. MgO nanoparticles were synthesized using sol-gel

process and characterized using SEM, FTIR and UV-VIS spectral study to confirm the formation and size of the nanoparticles.

LD50 was carried out using 13 of the mice and was found to be 1131.4 mg/kg. 20% of this value was used to formulate a graded

dose of 20, 10 and 5 mg/ml/kg. Then 30 mice divided into a group of five, containing six mice each and were inoculated with

0.2ml of ANKA strain of

Plasmodium berghei

, intraperitoneally; they were left for the next seven days before treatment with

the graded doses based on their body weight. 20/120mg/kg standard dose of artemether/lumenfantrine was used as a positive

control while negative control were given no treatment at all. Data were analyzed using mean percentage parasite clearance rate

and with that, MgO nanoparticles showed a remarkable clearance rate of 98.8% just after 24 hours of administration and at the

end of the four day curative model all the parasites were cleared from the blood; however, one shizoint was seen in two cases.

Coartem on the other hand had 81% clearance rate after 24 hours and at the end of the curative model, 98% clearance rate was

achieved. This clearly showed that MgO nanoparticles are superior in the clearance of the ANKA strain of

Plasmodium berghei

in infected mice than Coartem.

haudiza@yahoo.com

Pharmaceut Reg Affairs 2018, Volume 7

DOI: 10.4172/2167-7689-C1-031