胎儿生长受限的极早产儿脑干神经传导成熟改变。

Altered maturation in brainstem neural conduction in very premature babies with fetal growth restriction.

机构信息

Division of Neonatology, Children's Hospital of Fudan University, Shanghai, China.

出版信息

Pediatr Res. 2023 Oct;94(4):1472-1479. doi: 10.1038/s41390-023-02565-7. Epub 2023 Mar 25.

DOI:10.1038/s41390-023-02565-7

PMID:36966269

Abstract

BACKGROUND

Using maximum length sequence brainstem auditory evoked response (MLS BAER) to study brainstem neural conduction and maturation in fetal growth restriction (FGR) babies born very prematurely and assess the effect of FGR on brainstem neural maturation.

METHODS

MLS BAER was recorded and analyzed at a mean 40 week postmenstrual age in babies born at 27-32 week gestation without other major perinatal conditions or problems. The data were compared between babies with FGR (n = 30) and age-matched babies without FGR (n = 34) to define any differences.

RESULTS

A notable difference in MLS BAER was found in interpeak intervals between the babies with FGR and those without FGR. The FGR babies manifested significantly shortened I-III interval, moderately prolonged III-V interval, and significantly decreased III-V/I-III interval ratio. The slope of the I-III interval-rate function in FGR babies was moderately decreased, relative to that in the babies without FGR.

CONCLUSION

FGR babies born very prematurely are associated with accelerated or precocial neural maturation at caudal brainstem regions, but moderately delayed maturation at rostral brainstem regions. The altered brainstem neural maturation is different from previously reported mildly delayed maturation in FGR babies born less prematurely, and may have important implication for neurodevelopmental outcome.

IMPACT

This first MLS BAER study in FGR found that brainstem neural maturation in very premature FGR babies differed from age-matched non-FGR babies. Neural maturation in very premature FGR babies is accelerated or precocial at caudal brainstem regions but moderately delayed at rostral brainstem regions. The altered maturation is different from previously reported mild delay in brainstem neural maturation in FGR babies born less prematurely. FGR exerts a major and differential effect on brainstem neural maturation in babies born very prematurely. This alteration in very premature FGR babies may have important implication for their neurodevelopment.

摘要

背景

使用最大长度序列脑干听觉诱发电位（MLS BAER）研究极早产儿出生的胎儿生长受限（FGR）婴儿的脑干神经传导和成熟情况，并评估 FGR 对脑干神经成熟的影响。

方法

在孕龄 27-32 周出生且无其他主要围产期情况或问题的婴儿中，以平均 40 周的胎龄记录和分析 MLS BAER。将 FGR 婴儿（n=30）与年龄匹配的无 FGR 婴儿（n=34）的数据进行比较，以确定任何差异。

结果

FGR 婴儿与无 FGR 婴儿之间的 MLS BAER 中峰间潜伏期存在显著差异。FGR 婴儿的 I-III 间隔明显缩短，III-V 间隔中度延长，III-V/I-III 间隔比显著降低。FGR 婴儿的 I-III 间隔速率函数斜率与无 FGR 婴儿相比中度降低。

结论

极早产儿出生的 FGR 婴儿与尾部脑干区域的加速或早熟神经成熟有关，但与头部脑干区域的中度延迟成熟有关。改变的脑干神经成熟与以前报道的出生较早的 FGR 婴儿轻度延迟成熟不同，可能对神经发育结局有重要影响。

影响

这是第一项关于 FGR 的 MLS BAER 研究，发现极早产儿 FGR 婴儿的脑干神经成熟与年龄匹配的非 FGR 婴儿不同。极早产儿 FGR 婴儿的脑干神经成熟在尾部脑干区域加速或早熟，但在头部脑干区域中度延迟。这种改变与以前报道的出生较早的 FGR 婴儿的脑干神经成熟轻度延迟不同。FGR 对极早产儿的脑干神经成熟有主要的、不同的影响。极早产儿 FGR 婴儿的这种改变可能对其神经发育有重要意义。

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胎儿生长受限的极早产儿脑干神经传导成熟改变。

Altered maturation in brainstem neural conduction in very premature babies with fetal growth restriction.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

IMPACT

背景

方法

结果

结论

影响

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