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本文引用的文献

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Early edema in warfarin-related intracerebral hemorrhage.华法林相关脑出血的早期水肿
Neurocrit Care. 2007;7(1):58-63. doi: 10.1007/s12028-007-0039-3.
2
Treatment of warfarin-associated intracerebral hemorrhage: literature review and expert opinion.华法林相关性脑出血的治疗:文献综述与专家意见
Mayo Clin Proc. 2007 Jan;82(1):82-92. doi: 10.4065/82.1.82.
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The increasing incidence of anticoagulant-associated intracerebral hemorrhage.抗凝剂相关脑出血的发病率不断上升。
Neurology. 2007 Jan 9;68(2):116-21. doi: 10.1212/01.wnl.0000250340.05202.8b.
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Gender and inter-species influence on coagulation tests of rats and mice.性别和种间因素对大鼠和小鼠凝血试验的影响。
Thromb Res. 2007;120(3):415-9. doi: 10.1016/j.thromres.2006.10.012. Epub 2006 Dec 5.
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Prothrombin complex concentrate versus recombinant factor VIIa for reversal of coumarin anticoagulation.凝血酶原复合物浓缩剂与重组凝血因子VIIa用于香豆素类抗凝的逆转
Thromb Res. 2007;119(5):643-51. doi: 10.1016/j.thromres.2006.05.011. Epub 2006 Jul 13.
6
Gamma secretase-mediated Notch signaling worsens brain damage and functional outcome in ischemic stroke.γ-分泌酶介导的Notch信号通路会加重缺血性中风的脑损伤和功能预后。
Nat Med. 2006 Jun;12(6):621-3. doi: 10.1038/nm1403. Epub 2006 May 7.
7
Hematoma growth and outcome in treated neurocritical care patients with intracerebral hemorrhage related to oral anticoagulant therapy: comparison of acute treatment strategies using vitamin K, fresh frozen plasma, and prothrombin complex concentrates.口服抗凝药治疗相关脑出血的神经重症监护患者血肿生长情况及预后:维生素K、新鲜冰冻血浆和凝血酶原复合物浓缩剂急性治疗策略的比较
Stroke. 2006 Jun;37(6):1465-70. doi: 10.1161/01.STR.0000221786.81354.d6. Epub 2006 May 4.
8
Mechanisms of brain injury after intracerebral haemorrhage.脑出血后脑损伤机制
Lancet Neurol. 2006 Jan;5(1):53-63. doi: 10.1016/S1474-4422(05)70283-0.
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Intracerebral hemorrhage associated with oral anticoagulant therapy: current practices and unresolved questions.与口服抗凝治疗相关的脑出血:当前实践与未解决的问题。
Stroke. 2006 Jan;37(1):256-62. doi: 10.1161/01.STR.0000196989.09900.f8. Epub 2005 Dec 8.
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The epidemiology of atrial fibrillation in elderly persons: the tip of the iceberg.老年人房颤的流行病学:冰山一角。
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华法林相关脑出血的实验模型

Experimental model of warfarin-associated intracerebral hemorrhage.

作者信息

Foerch Christian, Arai Ken, Jin Guang, Park Kyung-Pil, Pallast Stefanie, van Leyen Klaus, Lo Eng H

机构信息

Neuroprotection Research Laboratory, Massachusetts General Hospital, Harvard Medical School, Charlestown, Masschusetts 02129, USA.

出版信息

Stroke. 2008 Dec;39(12):3397-404. doi: 10.1161/STROKEAHA.108.517482. Epub 2008 Sep 4.

DOI:10.1161/STROKEAHA.108.517482
PMID:18772448
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3712841/
Abstract

BACKGROUND AND PURPOSE

Future demographic changes predict an increase in the number of patients with atrial fibrillation. As long-term anticoagulation for the prevention of ischemic strokes becomes more prevalent, the burden of warfarin-associated intracerebral hemorrhage (W-ICH) is likely to grow. However, little is known about the clinical aspects and pathophysiologic mechanisms of W-ICH. This study describes the development of a mouse model of W-ICH in which hematoma growth and outcomes can be correlated with anticoagulation parameters.

METHODS

CD-1 mice were treated with warfarin (2 mg/kg per 24 hours) added to drinking water. ICH was induced by stereotactic injection of collagenase type VII (0.075 U) into the right striatum. Hemorrhagic blood volume was quantified by means of a photometric hemoglobin assay 2 and 24 hours after hemorrhage induction. Neurologic outcomes were assessed on a 5-point scale.

RESULTS

The international normalized ratio in nonanticoagulated mice was 0.8+/-0.1. After 24 (W-24) and 30 (W-30) hours of warfarin pretreatment, international normalized ratio values increased to 3.5+/-0.9 and 7.2+/-3.4, respectively. Compared with nonanticoagulated mice, mean hemorrhagic blood volume determined 24 hours after hemorrhage induction was found to be 2.5-fold larger in W-24 mice (P=0.019) and 3.1-fold larger in W-30 mice (P<0.001, n=10 per group). Mortality at 24 hours after hemorrhage induction was 0% in nonanticoagulated mice, 10% in W-24 mice, and 30% in W-30 mice. Hematoma enlargement between 2 and 24 hours after hemorrhage induction was -1.4% for nonanticoagulated mice, 22.9% for W-24 mice, and 62.2% for W-30 mice.

CONCLUSIONS

This study characterizes the first experimental model of W-ICH. It may be helpful in gaining further insights into the pathophysiology of W-ICH and may be used for testing the efficacy of treatment strategies, such as hemostatic therapy, in this severe subtype of stroke.

摘要

背景与目的

未来人口结构变化预示房颤患者数量将会增加。随着长期抗凝预防缺血性卒中变得更为普遍,华法林相关脑出血(W-ICH)的负担可能会加重。然而,关于W-ICH的临床特征和病理生理机制却知之甚少。本研究描述了一种W-ICH小鼠模型的建立,在该模型中血肿生长和转归可与抗凝参数相关联。

方法

给CD-1小鼠饮用添加华法林(每24小时2mg/kg)的水。通过立体定向向右侧纹状体注射VII型胶原酶(0.075U)诱导脑出血。在诱导出血后2小时和24小时,通过光度血红蛋白测定法定量出血血量。采用5分制评估神经功能转归。

结果

未抗凝小鼠的国际标准化比值为0.8±0.1。在华法林预处理24小时(W-24)和30小时(W-30)后,国际标准化比值分别增至3.5±0.9和7.2±3.4。与未抗凝小鼠相比,诱导出血后24小时测定的平均出血血量在W-24小鼠中增大2.5倍(P=0.019),在W-30小鼠中增大3.1倍(P<0.001,每组n=10)。诱导出血后24小时的死亡率在未抗凝小鼠中为0%,在W-24小鼠中为10%,在W-30小鼠中为30%。诱导出血后2至24小时血肿扩大情况在未抗凝小鼠中为-1.4%,在W-24小鼠中为22.9%,在W-30小鼠中为62.2%。

结论

本研究描述了首个W-ICH实验模型。它可能有助于进一步深入了解W-ICH的病理生理学,并可用于测试止血治疗等治疗策略在这种严重卒中亚型中的疗效。