Light microscopical and parasitological analyses revealed the beneficial effects of silver nanoparticles and various myrrh extracts against Trichinella spiralis infection in mice.

Trichinella spiralis infection is a food-borne zoonotic disease caused by nematodes that dwell in the tissues, presenting a significant public health concern. This study aimed to evaluate the effectiveness of different treatments including silver nanoparticles (AgNPs), myrrh biosynthesized AgNPs "AgNPs synthesized using plant-based green technologies", myrrh extract, and myrrh essential oil, as alternative treatments against T. spiralis infection. Parasitological, histopathological, and cytotoxicity assessments were conducted to investigate the effects of various concentrations of these treatments in reducing the populations of adult worms and larvae during both the intestinal and muscular phases of T. spiralis-infected mice. The results showed that the highest antihelminthic efficacy against the intestinal phase of T. spiralis was achieved by myrrh extract (86.66%), followed closely by AgNPs (84.96%) and myrrh AgNPs (82.51%) at higher concentrations (800 mg/kg for myrrh extract, 40 µg/mL for AgNPs, and 40 µg/mL for myrrh AgNPs). While the group treated with myrrh essential oil showed the lowest percentage of adult reduction (78.14%). However, all treatments demonstrated comparable effects in reducing the larvae population in the muscle phase. Histopathological examination of the tissues revealed compelling evidence of the effectiveness of AgNPs, particularly when prepared with myrrh. Additionally, a comprehensive assessment of the cytotoxicity of AgNPs indicated low toxicity levels. This study supports that AgNPs synthesized using plant-based green technologies hold therapeutic potential for the treatment of T. spiralis infection. These findings present a promising avenue for the development of novel antiparasitic drugs that are both effective and safe. RESEARCH HIGHLIGHTS: Myrrh extract has the highest antihelminthic efficacy against the intestinal phase of T. spiralis. Histopathological examination of the tissues revealed compelling evidence of the effectiveness of AgNPs, particularly when prepared with myrrh. During intestinal phase of T. spiralis, varying levels of nanoparticle precipitation were detected in the liver, brain, lung, and intestine. During the muscular phase, the highest amount of AgNPs precipitation was detected in the liver, followed by the brain, and lung.

CEG-AgNPs Ameliorates DMBA-Induced Mammary Carcinogenicity by Alleviating Cytokines Expression.

<b>Background and Objective:</b> For more than a decade, breast cancer has been one of the most common forms of cancer among women around the world. The present article aimed to evaluate the protective activity of CEG-AgNPs against DMBA-induced mammary carcinoma. <b>Materials and Methods:</b> In this experimental study, green synthesis and characterization of CEG-AgNPs were carried as well as IC₅₀ against Mcf7 cell line and LD₅₀ on mice were evaluated. A total of 24 adult albino mice were divided into four groups six rats in each. Group I was given an equal amount of distilled water, group II was received 80 mg kg¹ b.wt., DMBA for 4 weeks, groups III and IV were treated with CEG-AgNPs (28.1 and 70.25 mg kg¹) from the 5th week of DMBA administration for 4 weeks, respectively. <b>Results:</b> CEG-AgNPs were approximately 42.32±9.52 nm with a negative zeta potential of -17.44. It is IC₅₀ against the Mcf7 cell line and LD₅₀ is equal to 82.76 µg mL¹ and 1405 mg kg¹ b.wt., A significant normalization in plasma ALT, AST, AST and LDH as well as mammary MDA, TNF-α, IL-6, P53, SOD, GPx and GSH levels have been observed in CEG-AgNPs treated mice. Oral CEG-AgNPs administration has suppressed VEGF-C gene expression in DMBA-treated mice. <b>Conclusion:</b> The present results, biochemical, histological and MRI results showed that CEG-AgNPs have potent anticancer activity against DMBA-induced mammary carcinoma in mice by inducing the biosynthesizes of antioxidant biomarkers and suppression of cytokines gene expression.