Visualization and Quantitative Analysis of the Blood Flow Fields in Aortic Arch by Vector Flow Mapping in Normal Human Bodies_Journal of Biomedical Engineering

Authors：

Department of Cardiology, West China Hospital, Sichuan University, Chengdu 610041, China;

Corresponding author：

Keywords：

vector flow mapping; aortic arch; hemodynamics; energy loss

DOI：

10.7507/1001-5515.20160126

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To visualize and quantify the hemodynamics in the aortic arch in normal individuals, we used velocity distribution, retrograde flow, vortex formation, and mean energy loss (mEL) at different cardiac cycles in our study. We performed Vector flow mapping (VFM) analysis by using echocardiography in 87 healthy volunteers. The results showed that ① in different sections of the aortic arch, a skewed peak flow velocity (Vp) always appeared in the period of rapid ejection but in different distribution. The systolic flow in the entire aortic arch rose rapidly from near-zero at the point of iso-volumetric contraction to the peak velocity at the period of rapid ejection, and then decreased gradually; ② In the period of iso-volumetric relaxation, retrograde flow and vortex were observed in all subjects in the inner wall of the entire aortic arch; and ③ The change rule of mEL in the entire aortic arch was similar to that of flow velocity. VFM can provide insights into the intra-aortic arch flow patterns, and offer essential fundamentals about flow features associated with common aortic diseases.

Citation： CAIYuyan, WEIXin, ZHANGXiaoling, CHENLiping, TANGHong. Visualization and Quantitative Analysis of the Blood Flow Fields in Aortic Arch by Vector Flow Mapping in Normal Human Bodies. Journal of Biomedical Engineering, 2016, 33(4): 779-785. doi: 10.7507/1001-5515.20160126 Copy

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12.	GAO F, GUO Z, SAKAMOTO M, et al. Fluid-structure interaction within a layered aortic arch model[J]. J Biol Phys, 2006, 32(5):435-454.
13.	宋江湖, 陈国定, 任延平.考虑流固耦合作用的主动脉弓血液流动分析[J].中国生物医学工程学报, 2008, 27(3):405-409.
14.	唐红, 陈柳, 韦馨.心腔流场可视化的超声观察[J].中国医疗器械信息, 2012, (06):9-13.

1. PAUL M C, LARMAN A. Investigation of spiral blood flow in a model of arterial stenosis[J]. Med Eng Phys, 2009, 31(9):1195-1203.
2. FRYDRYCHOWICZ A, HARLOFF A, JUNG B, et al. Time-resolved, 3-dimensional magnetic resonance flow analysis at 3 T:Visualization of normal and pathological aortic vascular hemodynamics[J]. J Comput Assist Tomogr, 2007, 31(1):9-15.
3. GALLO D, GUELAN U, DI STEFANO A, et al. Analysis of thoracic aorta hemodynamics using 3D particle tracking velocimetry and computational fluid dynamics[J]. J Biomech, 2014, 47(12):3149-3155.
4. HOPE T A, MARKL M, WIGSTROM L, et al. Comparison of flow patterns in ascending aortic aneurysms and volunteers using four-dimensional magnetic resonance velocity mapping[J]. Journal of Magnetic Resonance Imaging, 2007, 26(6):1471-1479.
5. TATANI K, MIYAZAKI S, KOYAMA S, et al. The novel insights into cardiovascular imaging techiques with the flow visualization method:the present conditions and the prospects of VFM[EB/OL]. Medix, 2014, 60:17-21[2015-07-30]. http://www.hitachi.co.jp/products/healthcare/products-support/contents/medix/pdf/vol60/p17-21.pdf.
6. HONDA T, ITATANI K, MIYAJI K, et al. Assessment of the vortex flow in the post-stenotic dilatation above the pulmonary valve stenosis in an infant using echocardiography vector flow mapping[J]. Eur Heart J, 2014, 35(5):306.
7. STUGAARD M, KORIYAMA H, KATSUKI K, et al. Energy loss in the left ventricle obtained by vector flow mapping as a new quantitative measure of severity of aortic regurgitation:a combined experimental and clinical study[J]. Eur Heart J Cardiovasc Imaging, 2015, 16(7):723-730.
8. MORDI I, TZEMOS N. Bicuspid aortic valve disease:a comprehensive review[J]. Cardiol Res Pract, 2012, 2012:196037.
9. 吕庚, 任秀贞.主动脉弓分析在成人经胸超声心动图检查中的价值[J].中外医疗, 2015, 13(7):189-190.
10. 严宇, 严中亚, 苏彦艳.主动脉弓形态学研究及其临床应用[J].安徽医学, 2013, 34(10):1565-1567.
11. KILNER P J, YANG G Z, MOHIADDIN R H, et al. Helical and retrograde secondary flow patterns in the aortic arch studied by three-directional magnetic resonance velocity mapping[J]. Circulation, 1993, 88(5 Pt 1):2235-2247.
12. GAO F, GUO Z, SAKAMOTO M, et al. Fluid-structure interaction within a layered aortic arch model[J]. J Biol Phys, 2006, 32(5):435-454.
13. 宋江湖, 陈国定, 任延平.考虑流固耦合作用的主动脉弓血液流动分析[J].中国生物医学工程学报, 2008, 27(3):405-409.
14. 唐红, 陈柳, 韦馨.心腔流场可视化的超声观察[J].中国医疗器械信息, 2012, (06):9-13.

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