[1] Luo Y, Gong Z, Zhou Y, Chang B, Chai C, Liu T, Han Y, Wang M, Qian T, Haacke EM, Xia S. Increased susceptibility of asymmetrically prominent cortical veins correlates with misery perfusion in patients with occlusion of the middle cerebral artery[J]. Eur Radiol, 2017, 27:2381-2390. [2] Ni XX, Cao SG, Wang J, Feng Y, Xu WA, Xia MW. The value of the prominent hypointense vessels sign in acute ischemic stroke[J]. Zhonghua Shen Jing Ke Za Zhi, 2020, 53:64-71.[倪晓星, 曹树刚, 王建, 冯园, 徐文安, 夏明武. 磁敏感加权成像显著低信号血管征在急性脑梗死诊疗中的应用价值[J]. 中华神经科杂志, 2020, 53:64-71.] [3] Jiang HF, Zhang YQ, Pang JX, Shao PN, Qiu HC, Liu AF, Li C, Jin M, Man FY, Jiang WJ. Factors associated with prominent vessel sign on susceptibility-weighted imaging in acute ischemic stroke[J]. Sci Rep, 2021, 11:5641. [4] Lu X, Luo Y, Fawaz M, Zhu C, Chai C, Wu G, Wang H, Liu J, Zou Y, Gong Y, Haacke EM, Xia S. Dynamic changes of asymmetric cortical veins relate to neurologic prognosis in acute ischemic stroke[J]. Radiology, 2021, 301:672-681. [5] Xu Z, Duan Y, Yang B, Huang X, Pei Y, Li X. Asymmetric deep medullary veins in patients with occlusion of a large cerebral artery:association with cortical veins, leptomeningeal collaterals, and prognosis[J]. Front Neurol, 2019, 10:1292. [6] Liu YL, Yin HP, Qiu DH, Qu JF, Zhong HH, Lu ZH, Wang F, Liang MQ, Chen YK. Multiple hypointense vessels on susceptibility-weighted imaging predict early neurological deterioration in acute ischaemic stroke patients with severe intracranial large artery stenosis or occlusion receiving intravenous thrombolysis[J]. Stroke Vasc Neurol, 2020, 5:361-367. [7] Li W, Xiao WM, Luo GP, Liu YL, Qu JF, Fang XW, Wang F, Chen YK. Asymmetrical cortical vein sign predicts early neurological deterioration in acute ischemic stroke patients with severe intracranial arterial stenosis or occlusion[J]. BMC Neurol, 2020, 20:331. [8] Bhattacharjee R, Gupta RK, Das B, Dixit VK, Gupta P, Singh A. Penumbra quantification from MR SWI-DWI mismatch and its comparison with MR ASL PWI-DWI mismatch in patients with acute ischemic stroke[J]. NMR Biomed, 2021, 34:e4526. [9] Darwish EAF, Abdelhameed-El-Nouby M, Geneidy E. Mapping the ischemic penumbra and predicting stroke progression in acute ischemic stroke:the overlooked role of susceptibility weighted imaging[J]. Insights Imaging, 2020, 11:6. [10] Chen CY, Chen CI, Tsai FY, Tsai PH, Chan WP. Prominent vessel sign on susceptibility-weighted imaging in acute stroke:prediction of infarct growth and clinical outcome[J]. PLoS One, 2015, 10:e0131118. [11] Zhan YH, Chen YK, Li RX, Luo GP, Wu ZQ, Liu YL, Xiao WM, Hu WD, Xie CQ. Cortical venous changes on susceptibility-weighted imaging predict the cerebral collateral circulation as confirmed by digital subtraction angiography[J]. Front Neurol, 2021, 12:691430. [12] Haller S, Haacke EM, Thurnher MM, Barkhof F. Susceptibility-weighted imaging:technical essentials and clinical neurologic applications[J]. 2021, 299:3-26. [13] Wu YT, Zhou LX, Han F, Yang L, Zhang XB, Zhao DC, Peng B. Isolated cortical venous thrombosis:analysis of three cases and literature review[J]. Zhonghua Shen Jing Ke Za Zhi, 2019, 52:732-738.[吴雅婷, 周立新, 韩菲, 杨璐, 张晓波, 赵大春, 彭斌. 孤立性皮质静脉血栓三例分析及文献回顾[J]. 中华神经科杂志, 2019, 52:732-738.] [14] Dempfle AK, Harloff A, Schuchardt F, Bäuerle J, Yang S, Urbach H, Egger K. Longitudinal volume quantification of deep medullary veins in patients with cerebral venous sinus thrombosis:venous volume assessment in cerebral venous sinus thrombosis using SWI[J]. Clin Neuroradiol, 2018, 28:493-499. [15] Sato T, Terasawa Y, Mitsumura H, Komatsu T, Sakuta K, Sakai K, Matsushima S, Iguchi Y. Venous stasis and cerebrovascular complications in cerebral venous sinus thrombosis[J]. Eur Neurol, 2017, 78:154-160. [16] Murumkar V, Goyal S, Priyadarshini Baishya P, Peer S, Lanka V, Kulanthaivelu K, Saini J, Raghavendra K, Varun Reddy Y, Dattatraya Bhat M. Isolated thrombosis of cortical veins:clinical and radiological correlation[J]. J Clin Neurosci, 2021, 91:369-377. [17] Kim SK, Yoon W, Kim TS, Kim HS, Heo TW, Park MS. Histologic analysis of retrieved clots in acute ischemic stroke:correlation with stroke etiology and gradient-Echo MRI[J]. AJNR Am J Neuroradiol, 2015, 36:1756-1762. [18] Bourcier R, Derraz I, Delasalle B, Beaumont M, Soize S, Legrand L, Desal H, Bracard S, Naggara O, Oppenheim C; THRACE investigators. Susceptibility vessel sign and cardioembolic etiology in the THRACE trial[J]. Clin Neuroradiol, 2019, 29:685-692. [19] Kang DW, Jeong HG, Kim DY, Yang W, Lee SH. Prediction of stroke subtype and recanalization using susceptibility vessel sign on susceptibility-weighted magnetic resonance imaging[J]. Stroke, 2017, 48:1554-1559. [20] Alhazmi H, Bani-Sadr A, Bochaton T, Paccalet A, Da Silva CC, Buisson M, Amaz C, Ameli R, Berthezene Y, Eker OF, Ovize M, Cho TH, Nighoghossian N, Mechtouff L. Large vessel cardioembolic stroke and embolic stroke of undetermined source share a common profile of matrix metalloproteinase-9 level and susceptibility vessel sign length[J]. Eur J Neurol, 2021, 28:1977-1983. [21] Bourcier R, Derraz I, Bracard S, Oppenheim C, Naggara O; THRACE Investigators. Two-layered susceptibility vessel sign and high overestimation ratio on MRI are predictive of cardioembolic stroke[J]. AJNR Am J Neuroradiol, 2019, 40:65-67. [22] Brinjikji W, Duffy S, Burrows A, Hacke W, Liebeskind D, Majoie CBLM, Dippel DWJ, Siddiqui AH, Khatri P, Baxter B, Nogeuira R, Gounis M, Jovin T, Kallmes DF. Correlation of imaging and histopathology of thrombi in acute ischemic stroke with etiology and outcome:a systematic review[J]. J Neurointerv Surg, 2017, 9:529-534. [23] Sporns PB, Hanning U, Schwindt W, Velasco A, Minnerup J, Zoubi T, Heindel W, Jeibmann A, Niederstadt TU. Ischemic stroke:what does the histological composition tell us about the origin of the thrombus[J]? Stroke, 2017, 48:2206-2210. [24] Liang J, Gao P, Lin Y, Song L, Qin H, Sui B. Susceptibility-weighted imaging in post-treatment evaluation in the early stage in patients with acute ischemic stroke[J]. J Int Med Res, 2019, 47:196-205. [25] Seners P, Hurford R, Tisserand M, Turc G, Legrand L, Naggara O, Mas JL, Oppenheim C, Baron JC. Is unexplained early neurological deterioration after intravenous thrombolysis associated with thrombus extension[J]? Stroke, 2017, 48:348-352. [26] Aoki J, Kimura K, Shibazaki K, Saji N, Uemura J, Sakamoto Y, Nagai K. The susceptibility vessel sign at the proximal M1:a strong predictor for poor outcome after intravenous thrombolysis[J]. J Neurol Sci, 2015, 348:195-200. [27] Liu M, Li L, Li G. The different clinical value of susceptibility vessel sign in acute ischemic stroke patients under different interventional therapy:a systematic review and meta-analysis[J]. J Clin Neurosci, 2019, 62:72-79. [28] Darcourt J, Withayasuk P, Vukasinovic I, Michelozzi C, Bellanger G, Guenego A, Adam G, Roques M, Januel AC, Tall P, Meyrignac O, Rousseau V, Garcia C, Albucher JF, Payrastre B, Bonneville F, Olivot JM, Cognard C. Predictive value of susceptibility vessel sign for arterial recanalization and clinical improvement in ischemic stroke[J]. Stroke, 2019, 50:512-515. [29] Bourcier R, Hassen WB, Soize S, Roux P, Labreuche J, Kyheng M, Tisserand M, Rosso C, Blanc R, Piotin M, Derraz I, Boulouis G, Oppenheim C, Desal H, Bracard S, Lapergue B, Naggara O; ASTER and the THRACE investigators. Susceptibility vessel sign on MRI predicts better clinical outcome in patients with anterior circulation acute stroke treated with stent retriever as first-line strategy[J]. J Neurointerv Surg, 2019, 11:328-333. |