The impact of cooling and Moringa supplementation on oxidative stress in serum and milk, including milk cytokines, in heat stressed lactating sows and their litters.

IF 1.3 Q3 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Translational Animal Science Pub Date : 2024-11-13 eCollection Date: 2025-01-01 DOI:10.1093/tas/txae156

Wonders O Ogundare, Linda M Beckett, Leriana G Reis, McKeeley C Stansberry, Sydney N Roberts, Uchenna Y Anele, Allan P Schinckel, Theresa M Casey, Radiah C Minor

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Abstract

Heat stress (HS) poses a significant challenge to the United States swine industry. Sows and their piglets are particularly vulnerable to HS, as the periparturient phase is characterized by heightened metabolism and increased oxidative stress and inflammation. The study examined the effects of using conductive electronic cooling pads (ECP) and dietary supplementation with 4% Moringa (M) leaf powder on controlling oxidative stress and inflammation caused by HS in sows and their piglets. Forty-eight late gestation sows were assigned to four treatment groups: HS-fed corn-soybean meal (HS + CS), ECP-fed corn-soybean meal (ECP + CS), HS + M, and ECP + M. Blood was collected from sows on gestation (G) day 112, and lactation (L) day 14 and L20, and from piglets (2 males and 2 females) in each litter on postnatal (PN) day 1 and PN20. Colostrum was collected within 2h of birth of the first neonate, and mature milk was collected on L14. Piglet fecal samples were collected on PN14 to measure calprotectin concentration as a marker of intestinal inflammation. Biological antioxidant potential (BAP), derivatives of reactive oxygen metabolites (dROMs). and oxidative stress index (OSi) were measured in blood and milk samples using a Free Radical Elective Evaluator. Milk samples pooled by day of lactation and treatment group were analyzed using cytokine array. Levels of inflammatory cytokines in colostrum were affected by Moringa supplementation and cooling, but not mature milk. Notably, the anti-inflammatory cytokines interleukin (IL)-10 and IL-1ra were 2.14 and 1.57 Log₂ higher in the colostrum of HS + M compared to other groups. The OSi of colostrum was higher (P = 0.0002) than mature milk. Level of BAP in sow serum was greater in ECP + CS and HS + M (P = 0.0291) compared to other groups. Moringa had an overall effect of increasing dROMs (P = 0.0035) and levels of OSi were lowest in ECP + CS (P = 0.0296) sow serum. Treatments did not affect piglet serum oxidative index (P > 0.05) or calprotectin levels (P > 0.05). Findings support further studies to investigate the efficacy of using ECP and Moringa supplementation to mitigate inflammation and oxidative stress imposed by heat stress conditions in lactating sows.

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冷却和添加辣木对热应激哺乳母猪及其窝仔血清和乳中氧化应激的影响，包括乳细胞因子。

热应激（HS）是美国养猪业面临的一个重大挑战。母猪及其仔猪特别容易感染HS，因为围产期的特点是新陈代谢加快、氧化应激和炎症增加。本试验研究了导电电子冷却垫（ECP）和饲粮中添加4%辣木叶粉对母猪及其仔猪HS引起的氧化应激和炎症的控制作用。将48头妊娠后期母猪分为4个处理组：HS + CS、ECP + CS、HS + M和ECP + M。在妊娠(G)第112天、哺乳(L)第14天和第20天采集母猪的血液，在产后（PN）第1天和第20天采集每窝仔猪（2公2母）的血液。初乳在第一胎出生后2h内采集，成熟乳在L14时采集。在PN14上收集仔猪粪便样本，测量钙保护蛋白浓度，作为肠道炎症的标志。生物抗氧化潜能（BAP），活性氧代谢物（dROMs）衍生物。和氧化应激指数（OSi）的血液和牛奶样品使用自由基选择性评估。采用细胞因子阵列法对泌乳日及处理组乳样进行分析。添加辣木和冷却对初乳中炎症细胞因子水平有影响，但对成熟乳没有影响。值得注意的是，HS + M初乳中抗炎细胞因子白细胞介素(IL)-10和IL-1ra较其他组分别高2.14和1.57 Log2。初乳的OSi高于成熟乳（P = 0.0002）。ECP + CS和HS + M组母猪血清BAP水平高于其他组（P = 0.0291）。辣木对提高母猪血清drom有总体作用（P = 0.0035），而在ECP + CS中，OSi水平最低（P = 0.0296）。处理不影响仔猪血清氧化指数（P > 0.05）和钙保护蛋白水平（P > 0.05）。研究结果支持进一步研究使用ECP和辣木补充剂减轻哺乳母猪热应激条件下的炎症和氧化应激的效果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Translational Animal Science Veterinary-Veterinary (all)

CiteScore

2.80

自引率

15.40%

发文量

149

审稿时长

8 weeks

期刊介绍： Translational Animal Science (TAS) is the first open access-open review animal science journal, encompassing a broad scope of research topics in animal science. TAS focuses on translating basic science to innovation, and validation of these innovations by various segments of the allied animal industry. Readers of TAS will typically represent education, industry, and government, including research, teaching, administration, extension, management, quality assurance, product development, and technical services. Those interested in TAS typically include animal breeders, economists, embryologists, engineers, food scientists, geneticists, microbiologists, nutritionists, veterinarians, physiologists, processors, public health professionals, and others with an interest in animal production and applied aspects of animal sciences.