胎儿发育期大脑的铁缺乏和铁治疗——引入实验大鼠模型的初步研究。

Iron deficiency and iron treatment in the fetal developing brain - a pilot study introducing an experimental rat model.

机构信息

Laboratory of Neurobiology, Biomedicine Group, Department of Health Science and Technology, Aalborg University, Fr. Bajers Vej 3B, 1.216, DK-9220, Aalborg East, Denmark.

出版信息

Reprod Health. 2018 Jun 22;15(Suppl 1):93. doi: 10.1186/s12978-018-0537-0.

DOI:10.1186/s12978-018-0537-0

PMID:29945643

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6019982/

Abstract

BACKGROUND

Iron deficiency is especially common in women during the reproductive age and it is estimated that 52% of pregnant women have iron deficiency anemia. Maternal iron deficiency with or without anemia in pregnancy may have consequences for the fetus, where it may have an impact on the cerebral development of the brain. Both animals and adult human studies support that iron deficiency affects psychomotor development, behavioral traits, and cognitive functions in the offspring. However, it has not yet been established whether the availability of sufficient iron is particularly important in certain phases during brain development, and whether possible damages are reversible if iron supplementation is provided during pregnancy. Here we report results from a pilot study in an experimental rat model suitable for introducing iron deficiency in the fetal rat brain.

METHODS

The model was utilized for examination of the potential to reverse changes in fetal brain iron by maternal parenteral iron administration. Fertilized females subjected to iron deficiency without anemia were subcutaneously injected with iron isomaltoside at the day of mating (E0), 14 days into pregnancy (E14), or at the day of birth (Postnatal (P) 0). Blood, brain and liver in the offspring were examined on P0 or in adulthood on postnatal day P70.

RESULTS

Maternal iron restriction during pregnancy led to significantly lower levels of iron in the brains of newborn rats compared to levels in pups of iron sufficient mothers. Females fed ID diet (5.2 mg/kg Fe) had offspring with significantly lower cerebral iron compared to a control group fed a standard diet (158 mg/kg Fe). Injection of IIM to pregnant ID females on E0 or E14 yielded normalization of Fe in the developing brain known to express elevated levels of capillary transferrin receptors, indicating that the administered iron passed the placenta and fetal blood brain barrier.

CONCLUSIONS

In future studies, this translational model may be applied to examine morphological and biochemical consequences of iron deficiency and iron deficiency treatment in the developing fetal brain.

摘要

背景

铁缺乏在育龄妇女中尤为常见，据估计，52%的孕妇患有缺铁性贫血。妊娠期间母体铁缺乏伴或不伴贫血可能会对胎儿产生影响，可能会对大脑的脑发育产生影响。动物和成人研究都支持铁缺乏会影响后代的精神运动发育、行为特征和认知功能。然而，目前尚不清楚在大脑发育的某些阶段，是否有足够的铁供应特别重要，以及如果在怀孕期间提供铁补充，是否可以逆转可能的损害。在这里，我们报告了在适用于胎儿大鼠脑铁缺乏的实验大鼠模型中的一项初步研究结果。

方法

该模型用于检查通过母体肠外铁给药逆转胎儿脑铁变化的潜力。未伴贫血的缺铁受精雌性在交配日（E0）、妊娠 14 天（E14）或出生日（产后（P）0）皮下注射异麦芽糖铁。对后代的血液、大脑和肝脏进行检查，检查时间为出生后 0 天（P0）或成年后出生后 70 天（P70）。

结果

妊娠期间母体铁限制导致新生大鼠大脑中的铁含量明显低于铁充足母亲的后代。与对照组（158mg/kg Fe）相比，喂食 ID 饮食（5.2mg/kg Fe）的雌性所生的幼鼠大脑中的铁含量明显较低。在 E0 或 E14 时向 ID 妊娠雌性注射 IIM 可使已知表达高水平毛细血管转铁蛋白受体的发育中大脑中的 Fe 正常化，表明所给予的铁通过胎盘和胎儿血脑屏障。

结论

在未来的研究中，这种转化模型可用于检查铁缺乏和铁缺乏治疗对发育中胎儿大脑的形态和生化后果。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bab5/6019982/230f078a9657/12978_2018_537_Fig1_HTML.jpg

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胎儿发育期大脑的铁缺乏和铁治疗——引入实验大鼠模型的初步研究。

Iron deficiency and iron treatment in the fetal developing brain - a pilot study introducing an experimental rat model.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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