在慢性绵羊模型中使用生物基质对实验性神经管缺陷进行子宫内修复。

In utero repair of an experimental neural tube defect in a chronic sheep model using biomatrices.

作者信息

Eggink A J, Roelofs L A J, Feitz W F J, Wijnen R M H, Mullaart R A, Grotenhuis J A, van Kuppevelt T H, Lammens M M Y, Crevels A J, Hanssen A, van den Berg P P

机构信息

Department of Obstetrics and Gynecology, Radboud University Medical Centre, Nijmegen, The Netherlands.

出版信息

Fetal Diagn Ther. 2005 Sep-Oct;20(5):335-40. doi: 10.1159/000086808.

DOI:10.1159/000086808

PMID:16113549

Abstract

OBJECTIVE

Persistent exposure of the unprotected spinal cord to amniotic fluid and the uterine wall can lead to progressive damage of neural tissue in case of a myelomeningocele (two-hit hypothesis). The aim of this study was to evaluate whether in utero repair of an experimental neural tube defect in a fetal lamb could protect neural tissue from secondary injury and save neurologic functions after birth.

METHODS

In 19 fetal lambs, a neural tube defect was created at 79 days' gestation. In 12 lambs the defect was covered either with a novel, molecular defined collagen-based biocompatible and biodegradable matrix (UMC) or with a small intestinal submucosa (SIS) biomatrix (Cook) or by closing the skin over the defect.

RESULTS

All lambs with the defect covered showed no or minor neurologic morbidity in contrast to the lambs with the defect uncovered in which major neurologic morbidity was seen.

CONCLUSIONS

These results demonstrate that long-term exposure of the open spinal cord to the intrauterine environment can lead to damage of neural tissue and, consequently loss of neurologic functions and that coverage of the defect can lead to a better neurologic outcome. Furthermore, we could show that a UMC biomatrix and an SIS biomatrix are useful for in utero coverage of a surgically created neural tube defect in our model.

摘要

目的

在脊髓脊膜膨出的情况下（二次打击假说），未受保护的脊髓持续暴露于羊水和子宫壁会导致神经组织的渐进性损伤。本研究的目的是评估在胎羊实验性神经管缺陷的宫内修复是否能保护神经组织免受继发性损伤，并挽救出生后的神经功能。

方法

在19只胎羊中，于妊娠79天时制造神经管缺陷。在12只羔羊中，用一种新型的、分子明确的基于胶原蛋白的生物相容性和可生物降解的基质（UMC）或小肠黏膜下层（SIS）生物基质（库克公司）覆盖缺陷，或通过缝合缺陷上方的皮肤来覆盖。

结果

与未覆盖缺陷的羔羊出现严重神经病变不同，所有覆盖了缺陷的羔羊均未出现或仅出现轻微神经病变。

结论

这些结果表明，开放的脊髓长期暴露于子宫内环境会导致神经组织损伤，进而导致神经功能丧失，而覆盖缺陷可带来更好的神经学转归。此外，我们能够证明，在我们的模型中，UMC生物基质和SIS生物基质可用于宫内覆盖手术制造的神经管缺陷。

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在慢性绵羊模型中使用生物基质对实验性神经管缺陷进行子宫内修复。

In utero repair of an experimental neural tube defect in a chronic sheep model using biomatrices.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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