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2026, Vol: 16, Issue: 4
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Research Article


Application of nano-selenium as a dietary supplement and its effects on antioxidant status and gene expression related to oxidative stress in broiler chickens

Mustafa Hadi Hamid, Abdullah Q. Aswad, Ruya Fareed Jasim, Mohanad Fadhl Hussain Al-musodi.


Abstract
Background:
Antioxidants are important factors in reducing stress on poultry birds. Recently, nanomaterials have been introduced as part of feed additives to enhance the health of birds.

Aim:
This study aimed to evaluate the effects of dietary Nano-Se supplementation on broiler chicken growth performance, serum antioxidant status, and hepatic expression of oxidative stress-related genes. In total, 250 one-day-old Ross 308 broiler chicks were reared for up to 42 days.

Methods:
Birds were randomly assigned to five treatments (n = 50 birds/treatment; 5 replicates of 10 birds each) in a completely randomized design as follows: 1st treatment (T1; basal diet, control), 2nd treatment (T2; basal diet + 0.3 mg/kg organic Se), 3rd treatment (T3; basal diet + 0.3 mg/kg Nano-Se), 4th treatment (T4; basal diet + 0.6 mg/kg Nano-Se), and 5th treatment (T5; basal diet + 0.9 mg/kg Nano-Se).

Results:
Growth performance was recorded weekly. On day 42 , blood samples were collected for biochemical analysis of antioxidant enzymes, including GPx, SOD, TAC, and MDA. Liver tissue was harvested for quantitative real-time PCR analysis of GPX1, SOD1, CAT, Nrf2, and HO-1 gene expression. T4 showed a significant improvement in the final weight and feed conversion ratio. A significant increase in serum GPx activity was observed for T4 compared to T1 at 59.6% (125.3 vs. 78.5 U/mL;P<0.001), respectively. SOD activity and TAC were both increased by 49.1% (42.5 vs. 28.5 U/mL;P<0.001), and was 46.2% (2.85 vs. 1.95 mM Trolox equivalents, P<0.001) in T4 compared with T1. Likewise, MDA concentration was decreased in T4 by 44.4% compared with that in T1 (3.25 vs. 5.85 nmol/mL, P<0.001), respectively. Additionally, hepatic gene expression analysis revealed a significant upregulation of Nrf2 (3.80-fold), HO-1 (4.20-fold), GPX1 (3.45-fold), SOD1 (3.15-fold), and CAT (2.95- fold) in T4 (P<0.001). In conclusion, dietary supplementation with 0.6 mg/kg of nanoSe effectively enhanced the Nrf2-mediated antioxidant efense system, reduced oxidative stress, and enhanced growth performance in broiler chicken.

Conclusion:
These findings support the use of nano-Se as a superior alternative to conventional selenium sources in the diet and could improve the productive and physiological aspects of broilers.

Key words: Broiler; Growth performance; Nano-selenium; Nrf2 signaling; Oxidative stress.


 
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