人类新生儿脑积水的脑脊液梗阻与吸收不良

Cerebrospinal fluid obstruction and malabsorption in human neonatal hydrocephaly.

作者信息

Heep Axel, Bartmann Peter, Stoffel-Wagner Birgit, Bos Arie, Hoving Eelco, Brouwer Oebele, Teelken Albert, Schaller Carlo, Sival Deborah

机构信息

Department of Neonatology, University of Bonn, Adenauerallee 119, 53113, Bonn, Germany.

出版信息

Childs Nerv Syst. 2006 Oct;22(10):1249-55. doi: 10.1007/s00381-006-0102-y. Epub 2006 May 13.

DOI:10.1007/s00381-006-0102-y

PMID:16699804

Abstract

INTRODUCTION

The pathophysiology involved in human neonatal high-pressure hydrocephalus (HC) includes both cerebrospinal fluid (CSF) malabsorption and obstruction.

OBJECTIVE

The aim was to estimate the relative contribution between CSF malabsorption and obstruction in three different etiological groups of neonatal high-pressure HC by assessment of specific CSF biomarkers indicative of growth factor- and fibrosis-related CSF malabsorption (transforming growth factor beta-1 (TGF beta-1), aminoterminal propeptide of type 1 collagen (PC1NP)].

MATERIALS AND METHODS

Patients were subdivided into three groups. Group A: spina bifida HC (n=12); group B: non-haemorrhagic triventricular HC (n=4); and group C: posthaemorrhagic HC (n=6). To exclude for confounding differences in pro-inflammatory state between the three groups, interleukin-6 (IL-6) CSF concentrations were assessed. Consecutively, the CSF concentrations of TGF beta-1 and PC1NP were compared between the different groups.

RESULTS

Median CSF concentrations of IL-6 were low and did not differ between groups. Median CSF concentrations of PC1NP were significantly lower in group A (median: 180 ng/ml, range 90-808) than in group C (median: 1,060, range 396-1194; p=0.002). TGF beta-1 concentrations were significantly higher in group C (median 355 pg/ml, range 129-843) than in groups A (median 103, range 78-675 pg/ml) and B (median 120 pg/ml, range 91-188; p=0.01 and 0.03, respectively).

CONCLUSIONS

In neonatal posthaemorrhagic HC, high concentrations of malabsorption-related biomarkers contrast with lower concentrations in SB and non-haemorrhagic triventricular HC. During the early development of high pressure HC in SB neonates, CSF biomarkers strongly indicate that CSF obstruction contributes more to the development of HC than malabsorption.

摘要

引言

人类新生儿高压性脑积水（HC）的病理生理学涉及脑脊液（CSF）吸收不良和梗阻。

目的

通过评估指示生长因子和纤维化相关脑脊液吸收不良的特定脑脊液生物标志物（转化生长因子β-1（TGFβ-1）、I型胶原氨基末端前肽（PC1NP）），来估计新生儿高压性HC的三种不同病因组中脑脊液吸收不良和梗阻之间的相对贡献。

材料与方法

患者被分为三组。A组：脊柱裂性脑积水（n = 12）；B组：非出血性三脑室脑积水（n = 4）；C组：出血后脑积水（n = 6）。为排除三组之间促炎状态的混杂差异，评估了白细胞介素-6（IL-6）脑脊液浓度。随后，比较了不同组之间TGFβ-1和PC1NP的脑脊液浓度。

结果

IL-6的脑脊液浓度中位数较低，且各组之间无差异。A组PC1NP的脑脊液浓度中位数（中位数：180 ng/ml，范围90 - 808）显著低于C组（中位数：1060，范围396 - 1194；p = 0.002）。C组TGFβ-1浓度（中位数355 pg/ml，范围129 - 843）显著高于A组（中位数103，范围78 - 675 pg/ml）和B组（中位数120 pg/ml，范围91 - 188；分别为p = 0.01和0.03）。

结论

在新生儿出血后脑积水患者中，与吸收不良相关的生物标志物高浓度与脊柱裂性脑积水和非出血性三脑室脑积水中的较低浓度形成对比。在脊柱裂性脑积水新生儿高压性脑积水的早期发展过程中，脑脊液生物标志物强烈表明脑脊液梗阻对脑积水发展的贡献大于吸收不良。

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人类新生儿脑积水的脑脊液梗阻与吸收不良

Cerebrospinal fluid obstruction and malabsorption in human neonatal hydrocephaly.

作者信息

机构信息

出版信息

INTRODUCTION

OBJECTIVE

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

引言

目的

材料与方法

结果

结论

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