Pharmacological Strategies and Surgical Management of Posthemorrhagic Hydrocephalus Following Germinal Matrix-Intraventricular Hemorrhage in Preterm Infants.

IF 5.4 3区材料科学 Q2 CHEMISTRY, PHYSICAL ACS Applied Energy Materials Pub Date : 2024-09-06 DOI:10.2174/1570159X23666240906115817

Zhao Yang, Tian Tian Luo, Ya-Lan Dai, Han-Xiao Duan, Cheong-Meng Chong, Jun Tang

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Abstract

Germinal matrix-intraventricular hemorrhage (GM-IVH) is a detrimental neurological complication that occurs in preterm infants, especially in babies born before 32 weeks of gestation and in those with a very low birth weight. GM-IVH is defined as a rupture of the immature and fragile capillaries located in the subependymal germinal matrix zone of the preterm infant brain, and it can lead to detrimental neurological sequelae such as posthemorrhagic hydrocephalus (PHH), cerebral palsy, and other cognitive impairments. PHH following GM-IVH is difficult to treat in the clinic, and no levelone strategies have been recommended to pediatric neurosurgeons. Several cellular and molecular mechanisms of PHH following GM-IVH have been studied in animal models, but no effective pharmacological strategies have been used in the clinic. Thus, a comprehensive understanding of molecular mechanisms, potential pharmacological strategies, and surgical management of PHH is urgently needed. The present review presents a synopsis of the pathogenesis, diagnosis, and cellular and molecular mechanisms of PHH following GM-IVH and explores pharmacological strategies and surgical management.

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早产儿胚芽基质-脑室出血后出血性脑积水的药物治疗策略和手术治疗。

胚芽基质-脑室内出血（GM-IVH）是早产儿，尤其是妊娠 32 周前出生的早产儿和出生体重极低的早产儿的一种有害神经系统并发症。出血性脑积水是指早产儿大脑脐下生发基质区未成熟和脆弱的毛细血管破裂，可导致出血性脑积水后遗症（PHH）、脑瘫和其他认知障碍。GM-IVH后的PHH在临床上很难治疗，也没有向儿科神经外科医生推荐任何一种治疗策略。目前已在动物模型中研究了 GM-IVH 后 PHH 的几种细胞和分子机制，但尚未将有效的药理策略应用于临床。因此，迫切需要全面了解 PHH 的分子机制、潜在药理策略和手术治疗。本综述概述了 GM-IVH 后 PHH 的发病机制、诊断、细胞和分子机制，并探讨了药理策略和手术治疗。

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来源期刊

ACS Applied Energy Materials Materials Science-Materials Chemistry

CiteScore

10.30

自引率

6.20%

发文量

1368

期刊介绍： ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.