布热比·依明,富荣昌,阿达依·谢尔亚孜旦,迪丽娜尔·马合木提. 维医沙疗下股动脉双向流固耦合血流动力学数值模拟[J]. 中国生物医学工程学报, 2017, 36(4): 507-511.
Yiming Burebi,Fu Rongchang,Xieeryazidan· Adayi,Mahemuti Dilinaer. Hemodynamic Effects of Uyghur Sand Therapy on the Femoral Artery Based on the Fluid-Solid Interaction Method. Chinese Journal of Biomedical Engineering, 2017, 36(4): 507-511.
[1] Tang BT, Cheng CP, Draney MT, et al. Abdominal aortic hemodynamics in young healthy adults at rest and during lower limb exercise: quantification using image-based computer modeling [J]. Am J Physiol Heart Circ Physiol, 2006, 291(2): H668-H676. [2] 杨金有,刘静,俞航,等. 髂主动脉血栓后与正常髂主动脉血流动力学数值模拟对比分[J].生物医学工程与临床,2012(1):1-6. [3] 刘莹,殷艳飞,章德发,等. 流固耦合作用下狭窄颈动脉内非Newton血流分析[J]. 应用数学和力学,2015(10):1058-1066. [4] 迪丽娜.马合木提,卫荣,欣咔莲咔.柳玻芙.尼库拉耶夫纳,等.维医沙疗皮肤组织的热效应分析[J].中华物理医学与康复志 2005,27(7):398-401. [5] 阿不都沙拉木·赛都拉,沙地尔·卡地尔,吾斯曼·牙生,等. 维医沙疗与其他区域沙疗的沙子特性对比研究[J].中国民族医药杂志,2013,19:39-40. [6] 迪丽娜·马合木提,尼亚孜 新疆吐鲁番沙疗治疗风湿类疾病的研究.维吾尔医杂志,1997(3):20-23. [7] 胡小鑫,居来提·买提肉孜,黄少君,等. 室内沙疗室沙体热场均匀化分布的加热设计[J]. 西南师范大学学报(自然科学版),2015,40:20-25. [8] 卫荣,迪丽娜尔·马合木提. 维医沙疗传热效应抗炎作用验研究[J].中南大学学报(医学版),2009,34(1):1-7. [9] 卫荣,迪丽娜尔·马合木提,杨少玲,等. 维医沙疗对兔膝骨关节炎血液流变学和血液动力学影响[J]. 科技导报,2009,(3):83-86. [10] 刘龙,迪丽娜尔·马合木提,富荣昌,库娃汗·艾合买提. 室内沙疗对人体股动脉血流动力学影响的实验研究[J]. 新疆医科大学学报,2014(1):29-31. [11] 卫荣,肖明霞,迪丽娜尔·马合木提. 维吾尔医辨证分型骨性关节炎埋沙治疗效果观察[J]. 新疆医科大学学报,2012(10):1328-1332. [12] Fu Rongchang,Dilinaer Mahemut, Rexiati Tiyipujiang, et al. Effect studies of Uyghur sand therapy on the hemodynamics of the knee-joint arteries[J]. Bio-Medical Materials and Engineering, 2014, 24: 2381-2388. [13] 布热比·依明,富荣昌,阿达依·谢尔亚孜旦,等.维医沙疗对股动脉分叉的血流动力学影响[J].医用生物力学杂志,2016,31(5): 431-436. [14] Steinman DA. Image-based computational fluid dynamics: a new paradigm for monitoring hemodynamics and atherosclerosis[J]. Curr Drug Targets Cardiovasc Haematol Disord, 2004, 4(2):183-197. [15] Frauenfelder T, Lotfey M, Boehm T, et al. Computational fluid dynamics: hemodynamic changes in abdominal aortic aneurysm after stent -graft implantation [J]. Cardiovasc Intervent Radiol,2006, 29(4): 613-623. [16] Karmonik C, Bismuth JX, Davies MG, et al. Computational hemodynamics in the human aorta: a computational fluid dynamics study of three cases with patient-specific geometries and inflow rates[J]. Technol Health Care, 2008, 16(5): 343-354. [17] Paul MC, Larman A. Investigation of spiral blood flow in a model of arterial stenosis[J]. Med Eng Phys, 2009, 31(9): 1195-1203. [18] 吕绍茂,钟华,陈丽君,等. 构建颈内动脉瘤双向流固耦合模型的血流模拟[J]. 中国组织工程研究,2014(2):218-224. [19] 杨金有,俞航,刘静,等. 流固耦合分析分层的腹主动脉瘤模型[J]. 生物医学工程与临床,2014(4):310-314. [20] 豆中强. 动脉血管中脉动血流的数值模拟[D].重庆:重庆大学,2006. [21] 邓小燕,孙安强,刘肖,等. 生物流体力学[M].北京:机械工业出版社,2014:312-313. [22] Shahcheraghi N, Dwyer HA, Cheer AY, et al. Unsteady and three-dimensional simulation of blood flow in the human aortic arch [J]. J Biomech Eng, 2002, 124(4):378-387. [23] Yang Jinyou, Yu Hang, Liu Jing, et al. Comparison of blood flow dynamics in thoracic aortic dissection and normal aortic based on CT images [J]. BME & Clin Med,2010,14(5):390-393. [24] Liu Guiying,Wu Jianhuang,Dhanjoo N G,et al. Hemodynamic characterization of transient blood flow in right coronary arteries with varying curvature and side-branch bifurcation angles[J].Computers in Biology and Medicine2015,64:117-126. [25] 布热比·依明,富荣昌,阿达依·谢尔亚孜旦,等. 维医沙疗下股动脉双向流固耦合脉动血流动力学研究[J].介入放射学杂志,2017,26(1):72-77. [26] Chang L, Wang Y, Liu W. Measurements of Cerebral blood flow inpostasphyx iated newborns by Color Doppler Imaging (CDI)[J]. J Tongji Med Univ, 1996, 16(4): 249-252. [27] 刘桂英. 右冠状动脉的血流动力学数值模拟[D].广州:南方医科大学,2014. [28] 王嵩,夏爽,李牧,等. 联合CTA、CT灌注成像评价颅内外血管搭桥前后脑血流动力学的变化[J].中国老年学杂志,2012,32(4):827-828. [29] 罗永超,李克强,陶庆林,等.128层螺旋CT 脑灌注成像联合CT血管造影对超早期脑梗死区域血流动力学研究[J].现代诊断与治疗,2013,24 (9):1941-1942.