Effect of Silver Coating on Barium Titanium Oxide Nanoparticle Toxicity.

Isidro D Obregon, Brandi S Betts-Obregon, Brian Yust, Francisco Pedraza, Alexandra Ortiz, Dhiraj Sardar, Andrew T Tsin
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引用次数: 5

Abstract

Nanoparticles are presently being studied for optical and biomedical applications such as medical imaging and drug delivery. Nanoparticles impact the cellular environment due to many variables such as size, shape, and composition. How these factors affect cell viability is not fully understood. The purpose of this study is to test the toxicity effects of silver coating (Ag@) Barium Titanium Oxide (BaTiO3) nanoparticles on Rhesus Monkey Retinal Endothelial cells (RhREC's) in culture. The addition of silver to the nanoparticles increases their nonlinear optical properties significantly, making the Ag@BaTiO3 nanoparticles good candidates for nonlinear microscopy contrast agents. We hypothesize that by silver coating nanoparticles, there will be an increase in cell viability at higher concentrations when compared to non-silver coated nanoparticles. RhREC's were treated with BaTiO3 and Ag@BaTiO3 at concentrations of 0, 1.0, 10.0, and 100µg/ml for 24 hours at 37°C + 5%CO2. After 24 hour incubation with respective nanoparticles, cell viability was determined using the trypan blue dye-exclusion method. Treatment with 0, 1.0 and 10.0µg/ml of Ag@BaTiO3 had minimal effect on cell viability, with 90% viable cells remaining at the end of the 24 hours treatment period. However, cells treated with 100µg/ml of Ag@BaTiO3 resulted in a decrease to 51% viable cells. Comparatively, cells treated with 0, 1.0 and 10µg/ml of BaTiO3 had no significant effect on cell viability (90% viable cells after treatment) while the 100µg/ml treatment resulted in a decrease to 29% viable cells. These results show that silver coating of BaTiO3 nanoparticles has a protective effect on cellular toxicity at high concentrations.

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银涂层对氧化钛钡纳米颗粒毒性的影响。
纳米粒子目前正在研究光学和生物医学应用,如医学成像和药物输送。纳米颗粒影响细胞环境由于许多变量,如大小,形状和组成。这些因素如何影响细胞活力尚不完全清楚。本研究的目的是测试银涂层(Ag@)钡钛氧化物(BaTiO3)纳米颗粒对培养的恒河猴视网膜内皮细胞(RhREC)的毒性作用。在纳米颗粒中加入银可以显著提高其非线性光学性能,使Ag@BaTiO3纳米颗粒成为非线性显微镜造影剂的良好候选物。我们假设,通过银涂层纳米粒子,与非银涂层纳米粒子相比,在更高浓度下细胞活力会增加。在37°C + 5%CO2条件下,用浓度分别为0、1.0、10.0和100µg/ml的BaTiO3和Ag@BaTiO3处理RhREC 24小时。分别与纳米颗粒孵育24小时后,用台盼蓝染料排除法测定细胞活力。0、1.0和10.0µg/ml Ag@BaTiO3对细胞活力的影响最小,24小时处理结束时仍有90%的活细胞存活。然而,用100µg/ml Ag@BaTiO3处理细胞后,活细胞减少到51%。相比之下,0、1.0和10µg/ml的BaTiO3对细胞存活率无显著影响(处理后存活率为90%),而100µg/ml的BaTiO3则使细胞存活率下降至29%。这些结果表明,纳米BaTiO3纳米粒子的银涂层对高浓度的细胞毒性具有保护作用。
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