[1] Han K, Hu HH. Cerebral autoregulation:from theory to clinical translation and operation procedure standardization[J]. Zhongguo Zu Zhong Za Zhi, 2019, 14:195-206.[韩珂, 胡汉华. 脑血流自动调节:从理论到临床转化及检查流程的标准化[J]. 中国卒中杂志, 2019, 14:195-206.] [2] Appavu B, Foldes S, Burrows BT, Jacobson A, Abruzzo T, Boerwinkle V, Willyerd A, Mangum T, Gunnala V, Marku I, Adelson PD. Multimodal assessment of cerebral autoregulation and autonomic function after pediatric cerebral arteriovenous malformation rupture[J]. Neurocrit Care, 2021, 34:537-546. [3] Liu YM, Hua Y, Liu BB, Li JZ, Zhang N, Hou WH. Analysis of dynamic cerebral autoregulation in residents with high risk factors of stroke[J]. Zhongguo Nao Xue Guan Bing Za Zhi, 2020, 17:431-435.[刘玉梅, 华扬, 刘贝贝, 李景植, 张楠, 侯伟红. 卒中高危人群脑血流自动调节功能分析[J]. 中国脑血管病杂志, 2020, 17:431-435.] [4] Yu LY, Sun LZ, Wang F, Zhao XY, Han WY. Cerebral autoregulation in patients with unilateral carotid artery stenosis[J]. Zhongguo Yi Xue Ke Xue Yuan Xue Bao, 2020, 42:327-330.[于丽云, 孙立智, 王飞, 赵晓燕, 韩文勇. 单侧颈动脉狭窄患者的脑血流自动调节功能[J]. 中国医学科学院学报, 2020, 42:327-330.] [5] Claassen JA, Meel-van Den Abeelen AS, Simpson DM, Panerai RB. Transfer function analysis of dynamic cerebral autoregulation:a white paper from the International Cerebral Autoregulation Research Network[J]. J Cereb Blood Flow Metab, 2016, 36:665-680. [6] Liu J, Guo ZN, Simpson D, Zhang PD, Liu C, Song JN, Leng XY, Yang Y. A data-driven approach to transfer function analysis for superior discriminative power:optimized assessment of dynamic cerebral autoregulation[J]. IEEE J Biomed Health Inform, 2021, 25:909-921. [7] Wolf ME. Functional TCD:regulation of cerebral hemodynamics:cerebral autoregulation, vasomotor reactivity, and neurovascular coupling[J]. Front Neurol Neurosci, 2015, 36:40-56. [8] Chen J, Liu J, Dong P, Dong KH, Mo DP, Wang YL, Zhao XQ, Gong XP. Cerebral blood flow autoregulation assessment in patients with idiopathic intracranial hypertension[J]. Zhongguo Zu Zhong Za Zhi, 2020, 15:1218-1222.[陈洁, 刘嘉, 董培, 董可辉, 莫大鹏, 王伊龙, 赵性泉, 龚浠平. 特发性高颅压患者脑血流自动调节研究[J]. 中国卒中杂志, 2020, 15:1218-1222.] [9] Huang L, Zhang LN. Management of acute brain injury:importance of cerebral blood flow regulation[J]. Zhonghua Zhong Zheng Yi Xue Dian Zi Za Zhi, 2020, 6:248-251.[黄立,张丽娜. 急性颅脑损伤救治:不能忽视的脑血流调节功能[J].中华重症医学电子杂志, 2020, 6:248-251.] [10] Shen YX, Zhou YX, Xiao K, Lu P, Wu XH, Ren LJ. Association between dynamic cerebral autoregulation and short-term outcome in patients with anterior circulation stroke[J]. Shenzhen Zhong Xi Yi Jie He Za Zhi, 2021, 31:15-18.[沈艳霞,周艳霞, 肖坤, 路平, 吴小红, 任力杰. 急性前循环脑梗死患者脑血流自动调节与预后的相关性分析[J]. 深圳中西医结合杂志, 2021, 31:15-18.] [11] Folkow B. Intravascular pressure as a factor regulating the tone of the small vessels[J]. Acta Physiol Scand, 1949, 17:289-310. [12] Neurology Branch, Jilin Medical Association; Stroke Association of Jilin Province. Expert consensus on the clinical application of dynamic cerebral autoregulation assessment in neurological diseases (2021)[J]. Zhonghua Nao Xue Guan Bing Za Zhi (Dian Zi Ban), 2021, 15:140-152.[吉林省医学会神经病学分会, 吉林省卒中学会. 动态脑血流自动调节功能评估在神经系统疾病中的临床应用专家共识(2021)[J]. 中华脑血管病杂志(电子版), 2021, 15:140-152.] [13] Shen YX, Zhou YX, Hu SY, Chi F, Jiang SR, Yang QL, Ren LJ. Research progress of cerebral autoregulation in cerebrovascular diseases[J]. Zhongguo Yi Yao Dao Bao, 2019, 16:65-68.[沈艳霞, 周艳霞, 胡诗雨, 池枫, 江诗睿, 杨巧玲, 任力杰. 脑血流自动调节在脑血管疾病中的研究进展[J]. 中国医药导报, 2019, 16:65-68.] [14] Wang ZX. A study on characteristics and influencing factors of cerebral autoregulation in patients with ischemic stroke after intravenous thrombolysis[D]. Changchun:Jilin University, 2021.[王钟秀. 缺血性卒中患者静脉溶栓后脑血流自动调节功能变化及影响因素研究[D]. 长春:吉林大学, 2021.] [15] Jia M, Guo ZN, Jin H, Yan X, Shi M, Sun X, Ma H, Lv S, Yang Y. Venous sinus stenting improves cerebral autoregulation in a patient with venous sinus stenosis:a case report[J]. BMC Neurol, 2020, 20:9. [16] Chen J, Liu J, Dong K, Wang Y, Zhao X, Wang Y, Gong X. Impaired dynamic cerebral autoregulation in cerebral venous thrombosis[J]. Front Neurol, 2020, 11:570306. [17] Liu XY, Zhu WS. Advances in diagnosis and treatment of cerebral venous system diseases[J]. Zhongguo Xian Dai Shen Jing Ji Bing Za Zhi, 2016, 16:751-756.[刘晓昀, 朱武生. 脑静脉系统疾病诊断与治疗进展[J]. 中国现代神经疾病杂志, 2016, 16:751-756.] [18] Sun J, Chen D, Mao J. Research advances in neonatal cerebral sinovenous thrombosis[J]. Zhongguo Dang Dai Er Ke Za Zhi, 2021, 23:860-866.[孙婧, 陈丹, 毛健. 新生儿脑静脉(窦)血栓性疾病研究进展[J]. 中国当代儿科杂志, 2021, 23:860-866.] [19] Nakase H, Nagata K, Otsuka H, Sakaki T, Kempski O. Local cerebral blood flow autoregulation following "asymptomatic" cerebral venous occlusion in the rat[J]. J Neurosurg, 1998, 89:118-124. [20] Schaller C, Nakase H, Kotani A, Nishioka T, Meyer B, Sakaki T. Impairment of autoregulation following cortical venous occlusion in the rat[J]. Neurol Res, 2002, 24:210-214. [21] Intervention Neuroiuntervention Society, Chinese Stroke Association; Neurovascular Intervention Group, Neurology Branch, Chinese Medical Association. Chinese expert consensus on the interventional management of venous sinus stenosis[J]. Zhonghua Nei Ke Za Zhi, 2021, 60:696-708.[中国卒中学会神经介入分会, 中华医学会神经病学分会神经血管介入协作组. 脑静脉窦狭窄介入诊疗专家共识[J]. 中华内科杂志, 2021, 60:696-708.] [22] Li K, Wang F. The update of idiopathic intracranial hypertension and related oculopathy[J]. Zhonghua Jie Ru Fang She Xue Dian Zi Za Zhi, 2020, 8:221-226.[李克, 王峰. 特发性颅高压及相关眼病的诊疗进展[J]. 中华介入放射学电子杂志, 2020, 8:221-226.] [23] Wang SJ, Tong X, Mo DP. Advance in endovascular therapy for venous sinus stenosis in patients with idiopathic intracranial hypertension[J]. Zhongguo Zu Zhong Za Zhi, 2019, 14:1019-1025.[王素洁, 佟旭, 莫大鹏. 特发性颅内高压伴静脉窦狭窄的血管内治疗研究进展[J]. 中国卒中杂志, 2019, 14:1019-1025.] [24] Wen JX, Wei JJ. Research advances in idiopathic intracranial hypertention[J]. Zhongguo Yi Xue Ke Xue Yuan Xue Bao, 2021, 43:288-292.[文俊贤, 魏俊吉. 特发性颅内压增高的研究进展[J]. 中国医学科学院学报, 2021, 43:288-292.] [25] Gao CS, Tang J, Zhang HT, Fu JD. Intravascular interventional therapy for idiopathic intracranial hypertension complicated with intracranial venous sinus stenosis:current status and prospects[J]. Lin Chuang Yi Xue Jin Zhan, 2021, 11:4653-4660.[高昌松, 汤静, 张洪涛, 傅继弟. 血管内介入治疗特发性颅内压增高并颅内静脉窦狭窄的现状及进展[J]. 临床医学进展, 2021, 11:4653-4660.] [26] Chen J, Dong P, Dong K, Mo D, Wang Y, Zhao X, Wang Y, Gong X. Improvement of exhausted cerebral autoregulation in patients with idiopathic intracranial hypertension benefit of venous sinus stenting[J]. Physiol Meas, 2021, 42:1-19. [27] de-Lima-Oliveira M, Salinet ASM, Nogueira RC, de Azevedo DS, Paiva WS, Teixeira MJ, Bor-Seng-Shu E. Intracranial hypertension and cerebral autoregulation:a systematic review and Meta-analysis[J]. World Neurosurg, 2018, 113:110-124. [28] Kaipainen AL, Martoma E, Puustinen T, Tervonen J, Jyrkkänen HK, Paterno JJ, Kotkansalo A, Rantala S, Vanhanen U, Leinonen V, Lehto SM, Iso-Mustajärvi M, Elomaa AP, Qvarlander S, Huuskonen TJ. Cerebrospinal fluid dynamics in idiopathic intracranial hypertension:a literature review and validation of contemporary findings[J]. Acta Neurochir (Wien), 2021, 163:3353-3368. [29] Zhang YF, Zou XH, Fang YQ, Wen QN, Wang W, Ye W, Zhan LX. Risk factors analysis of epilepsy in cerebral arteriovenous malformation in Hakka area[J]. Xi Bu Yi Xue, 2022, 34:123-127.[张彦峰, 邹新辉, 方宇泉, 温俏楠, 王威, 叶旺, 詹丽璇. 客家人脑动静脉畸形合并癫痫的相关危险因素[J]. 西部医学, 2022, 34:123-127.] [30] Park ES, Kim S, Huang S, Yoo JY, Körbelin J, Lee TJ, Kaur B, Dash PK, Chen PR, Kim E. Selective endothelial hyperactivation of oncogenic KRAS induces brain arteriovenous malformations in mice[J]. Ann Neurol, 2021, 89:926-941. [31] Shang CH, Tang HS, Li JN, Zhang GH, Li Z, Xu Y, Huang QH, Liu JM, Li Q. Research progress of interventional embolization therapy for pediatric brain arteriovenous malformation[J]. Zhongguo Nao Xue Guan Bing Za Zhi, 2021, 18:804-809.[尚成浩, 唐海双, 李嘉楠, 张广浩, 李喆, 许奕, 黄清海, 刘建民, 李强. 儿童型脑动静脉畸形的结构特征及介入栓塞治疗的研究进展[J]. 中国脑血管病杂志, 2021, 18:804-809.] [32] He QH, Zeng CF, Wang MZ, Jiao YM, Cao Y, Zhao JZ. Interpretation for practice guideline for management of brain arteriovenous malformations in eloquent areas[J]. Zhongguo Zu Zhong Za Zhi, 2021, 16:839-842.[何蕲恒, 曾超凡, 王明泽, 焦玉明, 曹勇, 赵继宗.《功能区脑动静脉畸形临床实践指南》解读[J]. 中国卒中杂志, 2021, 16:839-842.] [33] Nagasawa S, Kawanishi M, Kondoh S, Kajimoto S, Yamaguchi K, Ohta T. Hemodynamic simulation study of cerebral arteriovenous malformations. Part 2:effects of impaired autoregulation and induced hypotension[J]. J Cereb Blood Flow Metab, 1996, 16:162-169. [34] Kader A, Young WL. The effects of intracranial arteriovenous malformations on cerebral hemodynamics[J]. Neurosurg Clin N Am, 1996, 7:767-781. [35] Young WL, Kader A, Prohovnik I, Ornstein E, Fleischer LH, Ostapkovich N, Jackson LD, Stein BM. Pressure autoregulation is intact after arteriovenous malformation resection[J]. Neurosurgery, 1993, 32:491-496. [36] Stüer C, Ikeda T, Stoffel M, Schaller C, Meyer B. Dynamic autoregulation testing does not indicate changes of cerebral blood flow before and after resection of small-and medium-ized cerebral AVM[J]. Transl Stroke Res, 2011, 2:60-66. [37] Zhang R, Zuckerman JH, Giller CA, Levine BD. Transfer function analysis of dynamic cerebral autoregulation in humans[J]. Am J Physiol, 1998, 274(1 Pt 2):H233-241. |