壁细胞缺失导致大鼠模型的血管壁退化、动脉瘤生长，并最终导致破裂。

Loss of mural cells leads to wall degeneration, aneurysm growth, and eventual rupture in a rat aneurysm model.

机构信息

From the Neurosurgery Research Group, Biomedicum Helsinki and Department of Neurosurgery, Helsinki University Central Hospital, Helsinki, Finland (S.M., J.M., K.B., P.H., J.H., M.N., J.F.); Institute of Pathology Länggasse, Bern, Switzerland (M.v.G.); and Experimental MRI Laboratory, Department of Neurology, Helsinki University Central Hospital and Institute of Biomedicine, University of Helsinki, Helsinki, Finland (U.A.-R.).

出版信息

Stroke. 2014 Jan;45(1):248-54. doi: 10.1161/STROKEAHA.113.002745. Epub 2013 Nov 12.

DOI:10.1161/STROKEAHA.113.002745

PMID:24222045

Abstract

BACKGROUND AND PURPOSE

The biological mechanisms predisposing intracranial saccular aneurysms to growth and rupture are not yet fully understood. Mural cell loss is a histological hallmark of ruptured cerebral aneurysms. It remains unclear whether mural cell loss predisposes to aneurysm growth and eventual rupture.

METHODS

Sodium dodecyl sulfate decellularized and nondecellularized saccular aneurysm from syngeneic thoracic aortas were transplanted to the abdominal aorta of Wistar rats. Aneurysm patency and growth was followed up for 1 month with contrast-enhanced serial magnetic resonance angiographies. Endoscopy and histology of the aneurysms were used to assess the role of periadventitial environment, aneurysm wall, and thrombus remodeling.

RESULTS

Nondecellularized aneurysms (n=12) showed a linear course of thrombosis and remained stable. Decellularized aneurysms (n=12) exhibited a heterogeneous pattern of thrombosis, thrombus recanalization, and growth. Three of the growing aneurysms (n=5) ruptured during the observation period. Growing and ruptured aneurysms demonstrated marked adventitial fibrosis and inflammation, complete wall disruption, and increased neutrophil accumulation in unorganized intraluminal thrombus.

CONCLUSIONS

In the presented experimental setting, complete loss of mural cells acts as a driving force for aneurysm growth and rupture. The findings suggest that aneurysms missing mural cells are incapable to organize a luminal thrombus, leading to recanalization, increased inflammatory reaction, severe wall degeneration, and eventual rupture.

摘要

背景与目的

导致颅内囊状动脉瘤生长和破裂的生物学机制尚未完全阐明。壁细胞缺失是破裂脑动脉瘤的组织学标志。壁细胞缺失是否导致动脉瘤生长和最终破裂仍不清楚。

方法

用十二烷基硫酸钠对同种异体胸主动脉的囊状动脉瘤进行去细胞和非去细胞处理，然后将其移植到 Wistar 大鼠的腹主动脉中。通过对比增强的连续磁共振血管造影术对动脉瘤的通畅性和生长情况进行了 1 个月的随访。对动脉瘤进行内镜检查和组织学检查，以评估周细胞环境、动脉瘤壁和血栓重塑的作用。

结果

非去细胞动脉瘤（n=12）表现出线性血栓形成过程且保持稳定。去细胞动脉瘤（n=12）则表现出血栓形成、血栓再通和生长的异质性模式。在观察期间，有 3 个生长的动脉瘤（n=5）破裂。生长和破裂的动脉瘤表现出明显的外膜纤维化和炎症，完全的壁破裂以及未组织化的腔内血栓中中性粒细胞的积累增加。

结论

在所提出的实验设置中，壁细胞的完全缺失是动脉瘤生长和破裂的驱动力。这些发现表明，缺乏壁细胞的动脉瘤无法形成管腔血栓，导致再通、炎症反应增加、严重的壁退化和最终破裂。

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壁细胞缺失导致大鼠模型的血管壁退化、动脉瘤生长，并最终导致破裂。

Loss of mural cells leads to wall degeneration, aneurysm growth, and eventual rupture in a rat aneurysm model.

机构信息

出版信息

BACKGROUND AND PURPOSE

METHODS

RESULTS

CONCLUSIONS

背景与目的

方法

结果

结论

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