12^th Nanotechnology Products and Summit

Biography

Biography: Merfat Algethami

Abstract

The application  of nano-materials  and  nanoparticles  for medical  imaging,  including computed tomography (CT) imaging, promises to overcome many of the shortcomings of traditional contrast media. In addition, nanoparticles have been shown to enhance the delivered dose in external beam radiotherapy. The optimal nanoparticulate agents need to have a high X-ray attenuation and absorption coefficients, low toxicity, a long blood circulation time, and be cost effective [1, 2]. The purpose of this research is to develop a nanoparticle theranostic agent and test it in currently used clinical procedures, including: (i) diagnostic CT imaging in order to enhance the device sensitivity and local CT numbers through enhancement of the target absorption, increasing the chance of identifying diseases, and; (ii) radiotherapy in order to enhance the effects of radiations on the target tissue. In this study we use bismuth sulfide nanoparticles (Bi2S3 NPs) that are non-toxic and one of the least expensive heavy metal-based nanoparticles. In addition, Bi2S3 NPs improve X-ray attenuation and absorption, making them promising theranostic agents[3]. In this presentation, we will focus on the synthesis and characterisation of the Bi2S3 NPs, as well as their cytotoxicity with lung adenocarcinoma epithelial cells (A549). The Bi2S3  NPs and conventional iodinated contrast agents were evaluated and compared for contrast enhancement at an X-ray tube potential of 140 kVp. The dose enhancing effects of Bi2S3 NPs on A549 cells were examined at KV and MV energies. The preliminary results reveal that Bi2S3 NPs possess superior attenuation with CT compared to iodine contrast reagents. The NPs also show radio-sensitisation with cells, displaying dose enhancement at the KV range of X-ray energies and also, to a lesser degree, at the MV ranges. Therefore, Bi2S3 NPs can be considered as valuable theranostic agents.