Maternal supplementation of egg yolk modulates brain functional organization and functional outcomes of offspring

IF 3.4 3区 医学 Q2 NUTRITION & DIETETICS
Stephanie Dubrof , Jillien G. Zukaitis , Ishfaque Ahmed , Wenwu Sun , Kelly M. Scheulin , Xi Fang , Julie Jeon , Franklin D. West , Qun Zhao , Hea Jin Park
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Abstract

Maternal nutrition during the perinatal stage is critical to offspring brain development. Egg yolks are a balanced and nutrient-dense food that is rich in bioactive components crucial to optimal neurodevelopment early in life. Egg consumption is often recommended to pregnant women to enhance both maternal and fetal health. We hypothesized that maternal intake of egg yolk from late gestation and throughout lactation would enhance functional organization and cognitive developmental outcomes in offspring using a pig model. Sows were fed a control diet (n = 6) or a diet containing egg yolks (n = 5, 350 mg egg yolk powder/kg BW/day, equivalent to ∼3 eggs/day for humans) from late gestation through lactation. At weaning, piglet offspring (n = 2/sow, total n = 22) underwent structural magnetic resonance imaging (MRI) and resting-state-functional MRI. Piglets underwent novel object recognition testing to assess hippocampal-dependent learning and memory. Functional MRI results demonstrated that egg yolk significantly increased functional activation in the executive network (p = 0.0343) and cerebellar network (p = 0.0253) in piglets when compared to control. Diffusion tensor imaging analysis showed that perinatal intake of egg yolks significantly increased white matter fiber length in the hippocampus (p = 0.0363) and cerebellum (p = 0.0287) in piglet offspring compared to control piglets. Furthermore, piglets from egg yolk-fed sows spent significantly more proportional frequency exploring the novel object than the familiar object in novel object recognition testing (p = 0.0370). The findings from this study support egg yolk-altered activation of specific brain networks may be associated with functional cognitive outcomes in weaning piglets.

Abstract Image

母体补充蛋黄可调节后代的大脑功能组织和功能结果
围产期的母体营养对后代的大脑发育至关重要。蛋黄是一种均衡且营养丰富的食物,富含对生命早期最佳神经发育至关重要的生物活性成分。人们经常建议孕妇食用鸡蛋,以增强母体和胎儿的健康。我们以猪为模型,假设母猪从妊娠晚期到整个哺乳期摄入蛋黄可提高后代的功能组织和认知发育结果。从妊娠晚期到哺乳期,给母猪喂食对照组日粮(n=6)或含蛋黄的日粮(n=5,350 毫克蛋黄粉/千克体重/天,相当于人类 3 枚鸡蛋/天)。断奶时,仔猪后代(2头/母猪,共22头)接受结构磁共振成像(MRI)和静息态功能磁共振成像(rs-fMRI)。fMRI结果显示,与对照组相比,蛋黄显著增加了仔猪执行网络(p=0.0343)和小脑网络(p=0.0253)的功能激活。DTI 分析表明,与对照组仔猪相比,围产期摄入蛋黄可显著增加仔猪后代海马(p=0.0363)和小脑(p=0.0287)的白质纤维长度。此外,在NOR测试中,来自蛋黄饲喂母猪的仔猪花在探索新物体上的比例频率明显高于熟悉物体(p=0.0370)。本研究结果表明,蛋黄改变特定大脑网络的激活可能与断奶仔猪的认知功能结果有关。
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来源期刊
Nutrition Research
Nutrition Research 医学-营养学
CiteScore
7.60
自引率
2.20%
发文量
107
审稿时长
58 days
期刊介绍: Nutrition Research publishes original research articles, communications, and reviews on basic and applied nutrition. The mission of Nutrition Research is to serve as the journal for global communication of nutrition and life sciences research on diet and health. The field of nutrition sciences includes, but is not limited to, the study of nutrients during growth, reproduction, aging, health, and disease. Articles covering basic and applied research on all aspects of nutrition sciences are encouraged, including: nutritional biochemistry and metabolism; metabolomics, nutrient gene interactions; nutrient requirements for health; nutrition and disease; digestion and absorption; nutritional anthropology; epidemiology; the influence of socioeconomic and cultural factors on nutrition of the individual and the community; the impact of nutrient intake on disease response and behavior; the consequences of nutritional deficiency on growth and development, endocrine and nervous systems, and immunity; nutrition and gut microbiota; food intolerance and allergy; nutrient drug interactions; nutrition and aging; nutrition and cancer; obesity; diabetes; and intervention programs.
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