Green synthsized Allium cepa nanoparticles with enhanced antiprotozoal activities for E. gingivalis

Authors

  • Ramesh Kumar Super Specialty Pediatrics Hospital & Post Graduate Teaching Institute, Noida
  • Sumi Nandwani Super Specialty Pediatrics Hospital & Post Graduate Teaching Institute, Noida
  • Dr Suman 2Amity Institute of Advanced Research and Studies (Materials & Devices), Amity University, Noida, Uttar Pradesh, India
  • Dr Samander Kaushik Department of Biotechnology, Maharishi Dayanand University, Rohtak, Haryana, INDIA

Abstract

Allium cepa has phytochemical characteristics well known to be used in our gastronomy. Due to its particle size, low systemic bioavailability is the major disadvantage associated to be used it for medicinal purpose. These limitations can be overcome by the converting the bulk size particles to nanosized particles. The present study was to prepare the nano-particles of Allium cepa with improved aqueous solubility, and to investigate their efficacy invitro against Entamoeba gingivalis, a protozoan associated with poor oral hygiene leading to advanced periodontal disease. Allium cepa nanoparticles of the size ranging 85–95 nm with the aqueous solubility of upto 3 mg/mL were prepared, and the anti-amoebic activities were tested in-vitro against Entamoeba gingivalis (ATCC 30927). The trophozoites of Entamoeba gingivalis were cultured in the presence of Allium cepa’s Bulk/nano- particles or metronidazole, the inhibition caused by each particles type at various concentrations was calculated by counting the viable trophozoites under the inverted microscope. Allium cepa nanoparticles showed inhibitory results of more than 80%, which is comparable with that of standard drug Metronidazole against E. gingivalis demonstrating its use as a potential anti-parasitic herbal drug.

onion nanoparticles

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Published

2020-11-27

How to Cite

Kumar, R., Nandwani, S., Dr Suman, & Dr Samander Kaushik. (2020). Green synthsized Allium cepa nanoparticles with enhanced antiprotozoal activities for E. gingivalis. Chemical Biology Letters, 7(4), 247–250. Retrieved from http://thesciencein.org/journal/index.php/cbl/article/view/126

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