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早产脑损伤缺氧模型中的性别差异。

Sex differences in a hypoxia model of preterm brain damage.

作者信息

Mayoral Sonia R, Omar Ghezal, Penn Anna A

机构信息

Neuroscience Program, Stanford University School of Medicine, Stanford, California 94305, USA.

出版信息

Pediatr Res. 2009 Sep;66(3):248-53. doi: 10.1203/PDR.0b013e3181b1bc34.

DOI:10.1203/PDR.0b013e3181b1bc34
PMID:19542909
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2732354/
Abstract

Male sex is a well-established risk factor for poor neurodevelopmental outcome after premature birth. The mechanisms behind this sex-related difference are unknown. The damage associated with prematurity can be mimicked in rodents by prolonged exposure to sublethal postnatal hypoxia. This chronic hypoxia leads to anatomical changes in mice that strongly resemble the loss of volume, decreased myelination, and ventriculomegaly seen in preterm newborns. However, no sex differences have been previously noted in this rodent model. We hypothesized that sex comparisons in hypoxic mice would show sex-related differences in brain volume and white matter loss in response to the same degree of hypoxic insult. Mice were placed in chronic sublethal hypoxia from postnatal day 3-11. Cortical, hippocampal, and cerebellar volumes and myelination indices were measured. We found that the male hippocampus, normally larger than the female, undergoes a greater volume loss compared with females (p < 0.05). Myelination, generally greater in males, was significantly disrupted by hypoxia in neonatal male forebrain. These results support the use of this rodent model to investigate the basis of sex-related susceptibility to brain damage and develop new sex-based neuroprotective strategies.

摘要

男性性别是早产后脑神经发育不良结局的一个公认风险因素。这种性别差异背后的机制尚不清楚。通过长时间暴露于亚致死性出生后缺氧环境,可以在啮齿动物中模拟与早产相关的损伤。这种慢性缺氧会导致小鼠出现解剖学变化,与早产新生儿中出现的脑容量减少、髓鞘形成减少和脑室扩大极为相似。然而,此前在这个啮齿动物模型中未发现性别差异。我们假设,对缺氧小鼠进行性别比较会显示,在相同程度的缺氧损伤下,脑容量和白质损失存在性别相关差异。从出生后第3天至第11天,将小鼠置于慢性亚致死性缺氧环境中。测量皮质、海马体和小脑的体积以及髓鞘形成指数。我们发现,正常情况下比雌性大的雄性海马体,与雌性相比体积损失更大(p < 0.05)。通常雄性的髓鞘形成程度更高,新生雄性前脑的髓鞘形成因缺氧而受到显著破坏。这些结果支持使用这个啮齿动物模型来研究性别相关的脑损伤易感性基础,并制定新的基于性别的神经保护策略。

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