Background and Aim: Many environmental factors exist that influence embryonic development which is missing in the poultry industry, such as light in incubation facilities or hatcheries. Light plays an important role in the growth and development of chick embryos, whereas dark environments can lead to hatching failure or embryo distortion. Therefore, this study aimed to demonstrate the importance of light and its various colors on the growth and development of broiler chick embryos.
Materials and Methods: Four treatments were used to study the impact of various light colors on the growth of embryos and their neurophysiological traits: Dark without light (D), red light (RL), blue light (BL), and green light (GL), with three replicates per treatment (25 eggs/replicate) for a total of 300 fertile Ross 308 eggs. Each treatment was assigned to one incubator (75 eggs/incubator), whereas all other conditions were kept the same.
Results: The results showed a significant increase (p<0.01) in embryonic development for embryo weight, chick body weight, hatchability, and embryo index for RL, BL, and especially GL. RL, BL, and especially GL significantly increased (p<0.01) neurophysiological traits of the neurons, brain weight, and brain index.
Conclusion: The use of light during the embryonic period affects the development of the embryo and its neurophysiological traits.
The objective of this study was to investigate the impact of stimulating the embryo during the dormancy in the incubation period. 450 eggs (Ross 308) were allocated in four treatments each three replicates. The treatments were as follow: T1 control (without shock), T2 Shocked (40) Millivolts (mV), T3 Shocked (50) (mV), T4 Shocked (75) (mV). A different voltage device was used to shock the egg, after marking the eggs with a line of iron filings to ensure electrical conductivity, eggs were shocked at different times three times a day. The results show a significant increase (p<0.01) in embryonic development for embryo weight, chick body weight, Hatchability, and embryo Index (EI) for T2, T3, and especially T4. A significant increase (p<0.01) in neurophysiological traits of neurons, brain weight, and Brain Index (BI) for T2, T3, and especially T4. In concluding the use of electric shock in the embryonic period will developing of the embryo and neurophysiological traits.
Objective: Synthesized silver nanoparticles (AgNPs) in liquids were investigated as anticancer cells in the present study. Cytotoxic activities of six different concentrations 0.78, 1.56, 3.125, 6.25, 12.5, and 25 μg/ml of AgNPs against human breast cancer cell line (AMJ13) and lymphocytes were assessed with MTT assay.Methods: A Q-Switched Nd: YAG pulsed laser (λ=1064 nm, 800 mJ/pulse) was used for ablation of a pure silver plate to synthesis AgNPs in the polyvinylpyrrolidone and deionize distilled water. Ultraviolet-visible spectroscopy confirmed the synthesis of AgNPs and zeta potential was evaluated. Morphology and size were analyzed by transmission electron microscope. AgNPs concentrations were determined by atomic absorption spectroscopy. Possibilities of apoptosis induction were confirmed using mitochondrial membrane potential assay, DNA fragmentation assay, and glutathione (GSH) assay.Results: The results indicated that AgNPs were able to induce an inhibition of AMJ13 cells compared their damaging effect toward normal lymphocytes were at minimal according to viability with MTT assay.. Furthermore, these results suggested that AgNPs-induced mitochondrial-mediated apoptosis cause DNA fragmentation, but no significant change in GSH level in AMJ13 cells.Conclusions: The overall results indicated that the physically synthesized AgNPs were exhibited dose-dependent cell death in AMJ13 breast cancer cell line, while the effect of AgNPs on lymphocytes was very low, suggesting that physically synthesized AgNPs might be a potential alternative agent for human breast cancer therapy.
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