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本文引用的文献

1
Brain edema after human cerebral hemorrhage: a magnetic resonance imaging volumetric analysis.人脑出血后的脑水肿:磁共振成像容积分析
J Neurosurg Anesthesiol. 2003 Jul;15(3):230-3. doi: 10.1097/00008506-200307000-00010.
2
Diffusion-perfusion MR evaluation of perihematomal injury in hyperacute intracerebral hemorrhage.超急性脑出血血肿周围损伤的扩散灌注磁共振成像评估
Neurology. 2001 Nov 13;57(9):1611-7. doi: 10.1212/wnl.57.9.1611.
3
Acute inflammatory reaction following experimental intracerebral hemorrhage in rat.大鼠实验性脑出血后的急性炎症反应
Brain Res. 2000 Jul 14;871(1):57-65. doi: 10.1016/s0006-8993(00)02427-6.
4
Diffusion-weighted MRI and proton MR spectroscopic imaging in the study of secondary neuronal injury after intracerebral hemorrhage.扩散加权磁共振成像和质子磁共振波谱成像在脑出血后继发性神经元损伤研究中的应用
Stroke. 2000 Mar;31(3):726-32. doi: 10.1161/01.str.31.3.726.
5
Early surgical treatment for supratentorial intracerebral hemorrhage: a randomized feasibility study.幕上脑出血的早期手术治疗:一项随机可行性研究。
Stroke. 1999 Sep;30(9):1833-9. doi: 10.1161/01.str.30.9.1833.
6
Orientation-independent diffusion imaging without tensor diagonalization: anisotropy definitions based on physical attributes of the diffusion ellipsoid.无需张量对角化的方向无关扩散成像:基于扩散椭球体物理属性的各向异性定义
J Magn Reson Imaging. 1999 Jun;9(6):804-13. doi: 10.1002/(sici)1522-2586(199906)9:6<804::aid-jmri7>3.0.co;2-b.
7
Attenuation of thrombin-induced brain edema by cerebral thrombin preconditioning.脑凝血酶预处理减轻凝血酶诱导的脑水肿
Stroke. 1999 Jun;30(6):1247-55. doi: 10.1161/01.str.30.6.1247.
8
Progression of mass effect after intracerebral hemorrhage.脑出血后占位效应的进展。
Stroke. 1999 Jun;30(6):1167-73. doi: 10.1161/01.str.30.6.1167.
9
Guidelines for the management of spontaneous intracerebral hemorrhage: A statement for healthcare professionals from a special writing group of the Stroke Council, American Heart Association.自发性脑出血管理指南:美国心脏协会卒中委员会特别写作小组为医疗保健专业人员发布的声明
Stroke. 1999 Apr;30(4):905-15. doi: 10.1161/01.str.30.4.905.
10
Ultra-early clot aspiration after lysis with tissue plasminogen activator in a porcine model of intracerebral hemorrhage: edema reduction and blood-brain barrier protection.在猪脑出血模型中,使用组织型纤溶酶原激活剂溶解血栓后进行超早期血栓抽吸:减轻水肿和保护血脑屏障
J Neurosurg. 1999 Mar;90(3):491-8. doi: 10.3171/jns.1999.90.3.0491.

人脑出血:利用扩散加权磁共振成像对血肿周围水肿进行量化

Human brain hemorrhage: quantification of perihematoma edema by use of diffusion-weighted MR imaging.

作者信息

Carhuapoma J Ricardo, Barker Peter B, Hanley Daniel F, Wang Paul, Beauchamp Norman J

机构信息

Neurosciences Critical Care and Stroke Program, Wayne State University School of Medicine, Detroit, MI 48201, USA.

出版信息

AJNR Am J Neuroradiol. 2002 Sep;23(8):1322-6.

PMID:12223372
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7976250/
Abstract

BACKGROUND AND PURPOSE

Animal models have clearly shown a critical role for extravascular blood in the initiation of the vasogenic edema associated with intracerebral hemorrhage (ICH). Nevertheless, the relevance of these observations to the human disease process has not been evaluated. With a prospectively collected cohort of nine patients, we report the relation between intraparenchymal blood clot volume and elevation of perihematoma brain tissue (and homologous contralateral brain tissue) apparent diffusion coefficient (ADC).

METHODS

Patients with acute and subacute supratentorial ICH were prospectively evaluated by using diffusion-weighted imaging. ADC was measured in perihematoma tissue and in homologous contralateral regions. The relationship between ADC and volume of hematoma was determined by using linear regression analysis.

RESULTS

Nine patients were enrolled in the study. The mean hematoma volume was 30.8 cc (range, 2.6-74 cc). The ADC in the perihematoma regions was 172.5 x 10(-5) mm(2)/s (range, 120.1-302.5 x 10(-5) mm(2)/s) and in the contralateral corresponding regions of interest was 87.6 x 10(-5) mm(2)/s (range, 76.5-102.1 x 10(-5) mm(2)/s) (P=.02). The Pearson correlation coefficient for the ADC in surrounding edema and hematoma volume was 0.7 (P=.04). The correlation coefficient between hematoma volume and contralateral hemisphere ADC was 0.8 (P=.02).

CONCLUSION

We report a significant direct correlation between ICH volume and degree of ADC elevation in perihematoma and ADC values in contralateral corresponding brain tissue. These findings suggest a dose-effect interaction between volume and concentration of blood products and intensity of response that brain tissue exhibits in blood-mediated edema. Prospective natural history and interventional studies are required to confirm this biologically meaningful correlation in patients with ICH.

摘要

背景与目的

动物模型已明确显示血管外血液在与脑出血(ICH)相关的血管源性水肿起始过程中起关键作用。然而,这些观察结果与人类疾病进程的相关性尚未得到评估。我们通过前瞻性收集的9例患者队列,报告脑实质内血凝块体积与血肿周围脑组织(以及对侧同源脑组织)表观扩散系数(ADC)升高之间的关系。

方法

对急性和亚急性幕上ICH患者进行前瞻性扩散加权成像评估。在血肿周围组织和对侧同源区域测量ADC。采用线性回归分析确定ADC与血肿体积之间的关系。

结果

9例患者纳入研究。平均血肿体积为30.8立方厘米(范围2.6 - 74立方厘米)。血肿周围区域的ADC为172.5×10⁻⁵平方毫米/秒(范围120.1 - 302.5×10⁻⁵平方毫米/秒),对侧相应感兴趣区域的ADC为87.6×10⁻⁵平方毫米/秒(范围76.5 - 102.1×10⁻⁵平方毫米/秒)(P = 0.02)。周围水肿ADC与血肿体积的Pearson相关系数为0.7(P = 0.04)。血肿体积与对侧半球ADC的相关系数为0.8(P = 0.02)。

结论

我们报告了ICH体积与血肿周围ADC升高程度以及对侧相应脑组织ADC值之间存在显著的直接相关性。这些发现提示血液产物的体积和浓度与脑组织在血液介导的水肿中表现出的反应强度之间存在剂量效应相互作用。需要进行前瞻性自然史和干预性研究以证实ICH患者中这种具有生物学意义的相关性。