[1]江国权,方兴根,徐善水,等.颅内动脉瘤破裂的血流动力学和形态学因素[J].介入放射学杂志,2014,(12):1109-1113.
 JIANG Guo quan,FANG Xing gen,XU Shan shui,et al.The effect of hemodynamic and morphological factors on the rupture of intracranial aneurysms[J].journal interventional radiology,2014,(12):1109-1113.
点击复制

颅内动脉瘤破裂的血流动力学和形态学因素 ()

PDF下载中关闭

分享到:

《介入放射学杂志》[ISSN:1008-794X/CN:31-1796/R]

卷:
期数:
2014年12期
页码:
1109-1113
栏目:
综述
出版日期:
2014-12-25

文章信息/Info

Title:
The effect of hemodynamic and morphological factors on the rupture of intracranial aneurysms
作者:
江国权 方兴根 徐善水 张连富
Author(s):
JIANG Guo quan FANG Xing gen XU Shan shui ZHANG Lian fu.
Department of Neurosurgery, Affiliated Yijishan Hospital, Wannan Medical College, Wuhu, Anhui Province 241001, China
关键词:
【关键词】 颅内动脉瘤 血流动力学 形态学
文献标志码:
A
摘要:
【摘要】 随着计算机断层摄影血管成像(CTA)、磁共振血管成像(MRA)等影像技术的广泛应用,越来越多的无症状性颅内动脉瘤被检测出来,如何从中鉴别出高破裂风险的动脉瘤成为治疗的关键,本文就近年来动脉瘤破裂的危险因素做一总结。

参考文献/References:

[1] Etminan N, Beseoglu K, Barrow DL, et al. Multidisciplinary consensus on assessment of unruptured intracranial aneurysms: proposal of an international research group[J]. Stroke, 2014, 45: 1523 1530.
[2] Li MH, Chen SW, Li YD, et al. Prevalence of unruptured cerebral aneurysms in Chinese adults aged 35 to 75 years: a cross sectional study[J]. Ann Intern Med, 2013, 159: 514 521.
[3] Amenta PS, Yadla S, Campbell PG, et al. Analysis of nonmodifiable risk factors for intracranial aneurysm rupture in a large, retrospective cohort[J]. Neurosurgery, 2012, 70: 693 699; discussion 699 701.
[4] Etminan N, Buchholz BA, Dreier R, et al. Cerebral aneurysms: formation, progression, and developmental chronology[J]. Transl Stroke Res, 2014, 5: 167 173.
[5] Baek H, Jayaraman MV, Richardson PD, et al. Flow instability and wall shear stress variation in intracranial aneurysms[J]. J R Soc Interface, 2010, 7: 967 988.
[6] 鲁 刚, 黄 磊, 张晓龙, 等. 颅内动脉瘤壁切应力与动脉瘤破裂关系的初步研究——基于患者的三维计算机模拟[J]. 介入放射学杂志, 2009, 18: 568 571.
[7] Reneman RS, Arts T, Hoeks AP. Wall shear stress—an important determinant of endothelial cell function and structure—in the arterial system in vivo. Discrepancies with theory[J]. J Vasc Res, 2006, 43: 251 269.
[8] Hassan T, Timofeev EV, Saito T, et al. Computational replicas: anatomic reconstructions of cerebral vessels as volume numerical grids at three dimensional angiography[J]. AJNR, 2004, 25: 1356 1365.
[9] Meng H, Wang Z, Hoi Y, et al. Complex hemodynamics at the apex of an arterial bifurcation induces vascular remodeling resembling cerebral aneurysm initiation[J]. Stroke, 2007, 38: 1924 1931.
[10] Castro MA, Putman CM, Cebral JR. Computational fluid dynamics modeling of intracranial aneurysms: effects of parent artery segmentation on intra aneurysmal hemodynamics[J]. AJNR, 2006, 27: 1703 1709.
[11] Shojima M, Oshima M, Takagi K, et al. Magnitude and role of wall shear stress on cerebral aneurysm: computational fluid dynamic study of 20 middle cerebral artery aneurysms[J]. Stroke, 2004, 35: 2500 2505.
[12] Omodaka S, Sugiyama S, Inoue T, et al. Local hemodynamics at the rupture point of cerebral aneurysms determined by computational fluid dynamics analysis[J]. Cerebrovasc Dis, 2012, 34: 121 129.
[13] Valencia A, Solis F. Blood flow dynamics and arterial wall interaction in a saccular aneurysm model of the basilar artery[J]. Comput Struct, 2006, 84: 1326 1337.
[14] Hoi Y, Meng H, Woodward SH, et al. Effects of arterial geometry on aneurysm growth: three dimensional computational fluid dynamics study[J]. J Neurosurg, 2004, 101: 676 681.
[15] Cebral JR, Castro MA, Appanaboyina S, et al. Efficient pipeline for image based patient specific analysis of cerebral aneurysm hemodynamics: technique and sensitivity[J]. IEEE Trans Med Imaging, 2005, 24: 457 467.
[16] Cebral JR, Sheridan M, Putman CM. Hemodynamics and bleb formation in intracranial aneurysms[J]. AJNR, 2010, 31: 304 310.
[17] Shojima M, Oshima M, Takagi K, et al. Role of the bloodstream impacting force and the local pressure elevation in the rupture of cerebral aneurysms[J]. Stroke, 2005, 36: 1933 1938.
[18] Ujiie H, Liepsch DW, Goetz M, et al. Hemodynamic study of the anterior communicating artery[J]. Stroke, 1996, 27: 2086 2093.
[19] Castro MA, Putman CM, Sheridan MJ, et al. Hemodynamic patterns of anterior communicating artery aneurysms: a possible association with rupture[J]. AJNR, 2009, 30: 297 302.
[20] UCAS Japan Investigators, Morita A, Kirino T, et al. The natural course of unruptured cerebral aneurysms in a Japanese cohort[J]. N Engl J Med, 2012, 366: 2474 2482.
[21] Burns JD, Huston J, Layton KF, et al. Intracranial aneurysm enlargement on serial magnetic resonance angiography: frequency and risk factors[J]. Stroke, 2009, 40: 406 411.
[22] Villablanca JP, Duckwiler GR, Jahan R, et al. Natural history of asymptomatic unruptured cerebral aneurysms evaluated at CT angiography: growth and rupture incidence and correlation with epidemiologic risk factors[J]. Radiology, 2013, 269: 258 265.
[23] Dhar S, Tremmel M, Mocco J, et al. Morphology parameters for intracranial aneurysm rupture risk assessment[J]. Neurosurgery, 2008, 63: 185 196; discussion 196 7.
[24] Matsukawa H, Uemura A, Fujii M, et al. Morphological and clinical risk factors for the rupture of anterior communicating artery aneurysms[J]. J Neurosurg, 2013, 118: 978 983.
[25] Wermer MJ, Van Der Schaaf IC, Algra A, et al. Risk of rupture of unruptured intracranial aneurysms in relation to patient and aneurysm characteristics: an updated meta analysis[J]. Stroke, 2007, 38: 1404 1410.
[26] Ujiie H, Tachibana H, Hiramatsu O, et al. Effects of size and shape (aspect ratio) on the hemodynamics of saccular aneurysms: a possible index for surgical treatment of intracranial aneurysms[J]. Neurosurgery, 1999, 45: 119 129; discussion 129 30.
[27] Tateshima S, Chien A, Sayre J, et al. The effect of aneurysm geometry on the intra aneurysmal flow condition[J]. Neuroradiology, 2010, 52: 1135 1141.
[28] Rahman M, Smietana J, Hauck E, et al. Size ratio correlates with intracranial aneurysm rupture status: a prospective study[J]. Stroke, 2010, 41: 916 920.
[29] Avolio A, Farnoush A, Morgan M, et al Hemodynamic models of cerebral aneurysms for assessment of effect of vessel geometry on risk of rupture[J]. Conf Proc IEEE Eng Med Biol Soc, 2009.
[30] Forget TR, Benitez R, Veznedaroglu E, et al. A review of size and location of ruptured intracranial aneurysms[J]. Neurosurgery, 2001, 49: 1322 1325; discussion 1325 6.
[31] Baharoglu MI, Schirmer CM, Hoit DA, et al. Aneurysm inflow angle as a discriminant for rupture in sidewall cerebral aneurysms: morphometric and computational fluid dynamic analysis[J]. Stroke, 2010, 41: 1423 1430.
[32] Lin N, Ho A, Gross BA, et al. Differences in simple morphological variables in ruptured and unruptured middle cerebral artery aneurysms[J]. J Neurosurg, 2012, 117: 913 919.
[33] Raghavan ML, Ma B, Harbaugh RE. Quantified aneurysm shape and rupture risk[J]. J Neurosurg, 2005, 102: 355 362.
[34] Lauric A, Miller EL, Baharoglu MI, et al. 3D shape analysis of intracranial aneurysms using the writhe number as a discriminant for rupture[J]. Ann Biomed Eng, 2011, 39: 1457 1469.
[35] Ryu CW, Kwon OK, Koh JS, et al. Analysis of aneurysm rupture in relation to the geometric indices: aspect ratio, volume, and volume to neck ratio[J]. Neuroradiology, 2011, 53: 883 889.
[36] Hendrikse J, Van Raamt AF, Van Der Graaf Y, et al. Distribution of cerebral blood flow in the circle of Willis[J]. Radiology, 2005, 235: 184 189.
[37] Alnaes MS, Isaksen J, Mardal KA, et al. Computation of hemodynamics in the circle of Willis[J]. Stroke, 2007, 38: 2500 2505.
[38] Feng Y, Wada S, Tsubota K, et al. The application of computer simulation in the Genesis and development of intracranial aneurysms[J]. Technol Health Care, 2005, 13: 281 291.
[39] You SH, Kong DS, Kim JS, et al. Characteristic features of unruptured intracranial aneurysms: predictive risk factors for aneurysm rupture[J]. J Neurol Neurosurg Psychiatry, 2010, 81: 479 484.

相似文献/References:

[1]王 亮,冯 睿,陆清声,等.采用CT断层扫描图像构建DeBakey Ⅲ型主动脉夹层三维血流动力学数值模拟分析模型[J].介入放射学杂志,2010,(10):767.
 WANG Liang,FENG Rui,LU Qing-sheng,et al.The construction of realistic 3D hemodynamic models of DeBakey Ⅲ aortic dissection by using CT images and its application in computational mimic analysis[J].journal interventional radiology,2010,(12):767.
[2]崔进国,张书田,冯艳姣,等.Budd-Chiari综合征造影血流动力学变化与介入治疗方法的选择[J].介入放射学杂志,1996,(02):78.
[3]邵良,武志坚,蒋寅,等.颈动脉海绵窦瘘23例疗效探讨[J].介入放射学杂志,2006,(06):323.
 ZHAO Lian,WU Zhi-jian,JIANG Yan,et al.Evaluation of the effectiveness by interventional treatment for cariod arterial cavernous sinus fistula [J].journal interventional radiology,2006,(12):323.
[4]张 炘,段传志,李铁林,等.切应力在血流动力学因素影响颅内动脉瘤形成和破裂中的作用[J].介入放射学杂志,2011,(04):319.
 ZHANG Xin,DUAN Chuan-zhi,LI Tie-lin,et al.The role of wall shear stress in the effect of hemodynamic factors on the formation, growth and rupture of intracranial aneurysm[J].journal interventional radiology,2011,(12):319.
[5]欧阳墉,张学军,欧阳雪晖,等. 肝海绵状血管瘤的研究进展——图例式阐述[J].介入放射学杂志,2012,(01):1.
 OUYANG Yong,ZHANG Xue-jun,OUYANG Xue-hui,et al.Research progress in hepatic cavernous hemangiomas: a comprehensive review with graphics[J].journal interventional radiology,2012,(12):1.
[6]邢 鸣,杨鹏飞,黄清海,等.支架治疗颈内动脉分叉部宽颈动脉瘤[J].介入放射学杂志,2012,(02):92.
 XING Ming,YANG Peng-fei,HUANG Qing-hai,et al.Stent implantation for the treatment of wide-necked aneurysms located at internal carotid artery bifurcation[J].journal interventional radiology,2012,(12):92.
[7]黄海东,顾建文,杨春敏,等.Enterprise支架辅助弹簧圈栓塞治疗前交通宽颈动脉瘤的临床研究[J].介入放射学杂志,2012,(07):536.
 HUANG Hai- dong,GU Jian- wen,YANG Chun-min,et al. Enterprise stent- assisted coil embolization for wide?蛳 necked anterior communicating artery aneurysms: a clinical study[J].journal interventional radiology,2012,(12):536.
[8]陆 靖,李永东,李明华,等. 时间飞越法磁共振血管造影对蛛网膜下腔出血诊断和治疗的临床价值[J].介入放射学杂志,2012,(09):711.
 LU Jing,LI Yong- dong,LI Ming- hua,et al. The clinical value of time- of-flight MRA in diagnosing and treating subarachnoid haemorrhage[J].journal interventional radiology,2012,(12):711.
[9]田红岸,赵 卫,易根发. 动脉灌注替罗非班在处理颅内动脉瘤栓塞术中急性血栓栓塞的研究[J].介入放射学杂志,2012,(09):718.
 TIAN Hong- an,ZHAO Wei,YI Geng-fa.. Application of intra- arterial infusion of tirofiban in dealing with acute thromboembolism occurred during embolization therapy for intracranial aneurysms: a preliminary study[J].journal interventional radiology,2012,(12):718.
[10]陈 状,李 林,王伟民,等. SolitaireAB支架结合弹簧圈治疗颅内宽颈动脉瘤的初步经验[J].介入放射学杂志,2013,(06):447.
 CHEN Zhuang,LI Lin,WANG Wei? min,et al. SolitaireAB stent- assisted coiling of intracranial wide- necked aneurysms: preliminary experience[J].journal interventional radiology,2013,(12):447.
[11]蒋春雨,王建波. 血流导向装置在颅内动脉瘤介入治疗中的应用[J].介入放射学杂志,2014,(03):267.
 JIANG Chun? yu,WANG jian? bo.. The application of flow diverter stent in treating intracranial aneurysms[J].journal interventional radiology,2014,(12):267.
[12]张 丹,李彩英,高不郎,等.颅内动脉瘤血流动力学发病机制研究进展 [J].介入放射学杂志,2017,(04):378.
 ZHANG Dan,LI Caiying,GAO Bulang,et al.Advances in the research of hemodynamics of the pathogenesis of intracranial aneurysms[J].journal interventional radiology,2017,(12):378.

备注/Memo

备注/Memo:
(收稿日期:2014-06-04)
(本文编辑:李 欣)
更新日期/Last Update: 2014-12-24