Effects of maternal supplementation with fully oxidised β-carotene on the reproductive performance and immune response of sows, as well as the growth performance of nursing piglets.

Hanzhen Qiao,Fang Chen,Jun Chen,Jiaming Chen,Yantao Lv,Lin Cheng,Min Tian,Wutai Guan,Yinzhi Zhang,Shihai Zhang

doi:10.1017/s0007114520002652

Hanzhen Qiao, Fang Chen + Show 8 more

Open Access

https://doi.org/10.1017/s0007114520002652

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Abstract

The present study was conducted to evaluate the impact of dietary fully oxidised β-carotene (OxBC, C40H60O15) supplementation during the perinatal period on immune status and productivity in a sow model. At day 85 of pregnancy, 150 sows were allocated to one of three dietary treatments with fifty sows per treatment. The three experimental diets were supplemented with 0, 4 or 8 mg/kg OxBC in the basal diet. The feeding trial was conducted from gestation day 85 until day 21 of lactation. Dietary OxBC supplementation greatly enhanced colostrum IgM, IgA and IgG levels, and the IgM and IgG content of 14-d milk. Dietary OxBC supplementation decreased the TNF-α and IL-8 levels in colostrum, as well as the TNF-α and IL-18 levels in 14-d milk. There was also a tendency towards an increase in the soluble CD14 level in 14-d milk. Although dietary treatments did not affect average daily feed intake nor backfat thickness loss during lactation, dietary OxBC supplementation tended to enhance litter weight and individual piglet weight at weaning. There was a trend towards increased lactose concentration in 14-d milk with increasing dietary OxBC. It is concluded that dietary supplementation with OxBC during the perinatal period enhances the lactose concentration of sow milk and the immune status of sows, which is reflected by improved cytokine status and immunoglobulin concentrations in colostrum and milk, and thus tending to increase litter weight and individual piglet weight at weaning. The results also provide a scientific nutritional reference for perinatal mothers due to the biological similarity between pigs and humans.

Highlights

During late gestation and lactation, sows have a high energy demand and an increased oxygen requirement due to rapid differentiation of the secretory parenchyma, intense mammary gland growth, and milk synthesis and secretion[1]
Perinatal sows have a heavy metabolic load and suffer from a metabolic syndrome with poor immunity[2,3,4], and this metabolic syndrome is indicative of a low-grade systemic inflammatory condition[5]
There was a trend towards increased lactose concentration in 14-d milk with increasing dietary oxidised β-carotene (OxBC) (P = 0·071)

Summary

Introduction

During late gestation and lactation, sows have a high energy demand and an increased oxygen requirement due to rapid differentiation of the secretory parenchyma, intense mammary gland growth, and milk synthesis and secretion[1]. Gene expression of pro-inflammatory cytokines in mammary tissues is downregulated at farrowing in sows[3]. These stresses provide a strong rationale for the use of nutritional strategies aimed at ameliorating the immunological and metabolic health of perinatal sows. The compounds, which are copolymers of β-carotene and oxygen, were discovered by research aimed at understanding the mechanisms behind the vitamin-A-independent effects of β-carotene. The presence and natural occurrence of the copolymers, their immunological activity and their effect on animal health have led to the suggestion that these compounds may be the actual source of the vitamin A-independent effects of β-carotene[6,7,8,11,12]

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Conclusion