ライフサイエンスコーパス: maternal nutrition

1 ggesting they were protected from suboptimal maternal nutrition.

2 g disease might be preventable by optimizing maternal nutrition.

3 nct from the proposed role of programming by maternal nutrition.

4 fluctuations that are naturally softened by maternal nutrition.

5 term human capital returns of investments in maternal nutrition.

6 ion of girls' education and empowerment; and maternal nutrition.

7 d from islet progenitor subsets modulated by maternal nutrition.

8 Key factors included poverty (61%), maternal nutrition (14%), paternal education (6%), ferti

9 de-treated mosquito nets (ITNs; 35%), better maternal nutrition (19%), improved maternal education (1

10 actors including parental education (24.7%), maternal nutrition (19.3%), reduced open defecation (12.

11 defecation (13%), parental education (10%), maternal nutrition (5%), economic improvement (4%), and

12 ntly needed to translate knowledge about how maternal nutrition affects children's long term health i

13 es; however, the mechanism(s) whereby excess maternal nutrition affects fetal development remain poor

14 Unbalanced maternal nutrition affects fetal endocrine and cardiovas

15 es suggestive evidence that periconceptional maternal nutrition alters offspring methylation at impri

16 We tested the hypotheses that poor maternal nutrition and accelerated postnatal growth woul

17 e nutrients that show extreme sensitivity to maternal nutrition and are implicated in neurological de

18 for neurodevelopment, where factors such as maternal nutrition and breastfeeding duration significan

19 sting, indicating the importance of not only maternal nutrition and care for newborns but more compre

20 Maternal nutrition and genetics are determinants of brea

21 dge and develop a research agenda to address maternal nutrition and infant feeding practices.

22 classified risk factors into five clusters: maternal nutrition and infection, teenage motherhood and

23 ked with epigenetic alterations triggered by maternal nutrition and intrauterine environment.

24 -scores (HAZs) at birth, reflecting improved maternal nutrition and intrauterine growth.

25 study focuses on examining the influence of maternal nutrition and metabolic state on offspring soci

26 f these relations, however, is the effect of maternal nutrition and nutrient transport on healthy fet

27 Notably, maternal nutrition and postnatal leptin surge have a pro

28 till needed to determine the impact of early maternal nutrition and strategic supplementation on pre-

29 However, the effects of maternal nutrition and stress are context dependent and

30 ularly salient drivers of fetal programming, maternal nutrition and stress represent the most commonl

31 gs contain presentations about the effect of maternal nutrition and the placental environment on feta

32 ood obesity include the promotion of healthy maternal nutrition and weight status at reproductive age

33 ylation was associated with periconceptional maternal nutrition, and methylation variability was infl

34 roles of these genes in uterine development, maternal nutrition, and vascular control support their m

35 ese epigenetic alterations due to changes in maternal nutrition are transitory or persist over time.

36 and experimental studies have pointed toward maternal nutrition as a major player during prenatal dev

37 igration and remittances, food security, and maternal nutrition as key drivers of stunting decline.

38 anthropometric indicators for childhood and maternal nutrition at a district level in Pakistan and a

39 esults underscore the importance of adequate maternal nutrition both before and during pregnancy as a

40 The mechanism by which poor maternal nutrition can affect the long-term health of of

41 Animal models have demonstrated that maternal nutrition can alter fetal vulnerability to pren

42 from human and animal studies suggests that maternal nutrition can induce developmental programming

43 tional source for the infant; and for a few, maternal nutrition can lead to substantial variations in

44 on of exposure, fetal and maternal genetics, maternal nutrition, concurrent substance use, and epigen

45 Maternal nutrition contributes to gene-environment inter

46 rth size, often associated with insufficient maternal nutrition, contributes to a large share of glob

47 Thus, fetal oxygenation, independent of maternal nutrition during development, has a predominant

48 n to the maternal or placental physiology or maternal nutrition during development.

49 We examined how maternal nutrition during pregnancy and infant birth wei

50 e was to investigate the association between maternal nutrition during pregnancy and intrauterine dev

51 logic studies suggest a relationship between maternal nutrition during pregnancy and the occurrence o

52 Maternal nutrition during pregnancy can induce epigeneti

53 Optimal maternal nutrition during pregnancy has been linked to b

54 Imbalanced maternal nutrition during pregnancy results in offspring

55 hese findings highlight the critical role of maternal nutrition during pregnancy, and duration of bre

56 considering associations with birth weight, maternal nutrition during pregnancy, child growth patter

57 imated associations directly attributable to maternal nutrition during pregnancy.

58 ascular system in utero including over/under maternal nutrition, excess glucocorticoid and chronic hy

59 Maternal nutrition exclusively during the periconception

60 nment modulates brain formation, and altered maternal nutrition has been linked to the development of

61 Maternal nutrition has little or no effect on many nutri

62 nts can be negatively affected by suboptimal maternal nutrition; however, it is unknown whether this

63 l and geographical inequalities in child and maternal nutrition in Pakistan, masked by national and p

64 Maternal nutrition in pregnancy has been linked to offsp

65 tions among recently delivered women between maternal nutrition intervention and control areas in Ban

66 Maternal nutrition interventions providing intensive cou

67 of adulthood, and it has been suggested that maternal nutrition is a major determinant of fetal growt

68 Maternal nutrition is associated with epigenetic and car

69 Maternal nutrition is critically important for fetal dev

70 Maternal nutrition is crucial for health in pregnancy an

71 Maternal nutrition is essential in fetal development; th

72 Improvements in maternal education, maternal nutrition, maternal and newborn care, and reduc

73 f maternal hypoxia independent of changes in maternal nutrition on maternal circulatory and placental

74 The negative impact of poor maternal nutrition on the fetal kidney may therefore be

75 terns during pregnancy may be a component of maternal nutrition relevant to pregnancy outcome.

76 underlying fetal programming in response to maternal nutrition remains unclear.

77 trition fail to identify specific aspects of maternal nutrition responsible for programming.

78 baboons, whose diets were either restricted [maternal nutrition restriction (MNR)] or who were fed ad

79 emerged as a crucial tool for understanding maternal nutrition's contribution to prenatal programmin

80 Less is known about whether maternal nutrition states during pregnancy modify offspr

81 icronutrient supplements on infant health by maternal nutrition status and sex.

82 nfounders, such as pregravid underweight and maternal nutrition status.

83 udy in 1001 healthy participants in the Pune Maternal Nutrition Study (PMNS), replication studies in

84 Reported benefits of maternal nutrition supplements commenced during pregnanc

85 Considering the importance of maternal nutrition, the effects of polar lipids-enriched

86 Mecp2(1lox) mice, a model of RTT, enhancing maternal nutrition through choline supplementation atten

87 gic circuitries upon time-restricted altered maternal nutrition to induce persistent behavioral chang

88 logical variable affects the contribution of maternal nutrition to prenatal programming.

89 These findings support the potential of maternal nutrition to reduce childhood FA.

90 suggest a potential pathway that could link maternal nutrition to reproductive development in the of

91 e age of 6 months, probably through improved maternal nutrition, to complement current programmes tha

92 Maternal nutrition variables attenuated but did not elim

93 rograms and factors contributing to gains in maternal nutrition were noted.

94 describe a life cycle approach to improving maternal nutrition, which goes beyond the traditional pr