ACM  >> Vol. 6 No. 4 (December 2016)

    心脏超声评价急性心肌梗死的血流动力学的研究进展
    The Research Progress in Echocardiographic Evaluation of Hemodynamics of Acute Myocardial Infarction

  • 全文下载: PDF(388KB) HTML   XML   PP.219-225   DOI: 10.12677/ACM.2016.64041  
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作者:  

吴广昊:内蒙古医科大学,内蒙古 呼和浩特;
陈凤英:内蒙古医科大学附属医院,内蒙古 呼和浩特

关键词:
心脏超声急性心肌梗死血流动力学研究进展Cardiac Ultrasound Acute Myocardial Infarction Blood Flow Dynamics Research Progress

摘要:

对近年来各期刊报道的心脏超声评价急性心肌梗死的血流动力学研究方面的文献进行归纳、整理和分析。通过检索万方、中国知网等大型数据库及国外数据库,查阅近年来有关心脏超声评价急性心肌梗死的血流动力学的研究文献,发现目前的心脏超声评价方法和手段主要集中于二维超声心动图、M型超声心动图、多普勒组织成像、应变率显像技术、实时三维超声心动图、三维斑点追踪成像技术等等众多方面。

This paper summarized and analyzed the literatures about the hemodynamic evaluation of acute myocardial infarction in recent years. Reviewing of the latest research about the evaluation of he-modynamics of acute myocardial infarction on cardiac ultrasound through Wanfang, CNKI and for-eign database, we find that the echocardiographic evaluation methods are mainly concentrated in the two-dimensional echocardiography, M type echocardiography, Doppler tissue imaging, strain rate imaging technology, real-time three-dimensional echocardiography, 3D spot tracking imaging technology, and so on.

文章引用:
吴广昊, 陈凤英. 心脏超声评价急性心肌梗死的血流动力学的研究进展[J]. 临床医学进展, 2016, 6(4): 219-225. http://dx.doi.org/10.12677/ACM.2016.64041

参考文献

[1] 陆再英, 终南山. 内科学[M]. 北京: 人民卫生出版社, 2008: 284.
[2] 陈主初. 病理生理学[M]. 北京: 人民卫生出版社, 2005: 264-270.
[3] 黄根牙, 顾新元, 唐利龙. 急性心肌梗死后早期心功能的变化及其调节机制[J]. 心血管病学进展, 2008, 29(6): 851-854.
[4] 金平. 心脏超声评估容量反应性与有创监测评估比较的[J]. 中国医学继续教育, 2014, 7(33): 53-54.
[5] Simon, M.A., Kliner, D.E., Girod, J.P., et al. (2011) Jugular Venous Distention on Ultrasound: Sensitivity and Specificity for Heart Failure in Patients with Dyspnea. American Journal of Emergency Medicine, 159, 421-427.
[6] 光美, 陈玉国. 急性心肌梗死患者PPCI前后ICG血流动力学指标变化[J]. 山东医药, 2012, 52(38): 80-81.
[7] Ouferrache, K., Amiel, J.B., Chimot, L., et al. (2012) Initial Resuscitation Guided by the Surviving Sepsis Campaign Recommendations and Early Echocardiographie Assessment of He-modynamics in Intensive Care Unit Septic Patients: A Pilot Study. Critical Care Medicine, 40, 2821-2827. https://doi.org/10.1097/CCM.0b013e31825bc565
[8] Lee, K.S., Abbas, A.E., Khandheria, B.K., et al. (2007) Echocardiographic Assessment of Right Heart Hemodynamic Parameters. Journal of the American Society of Echocardiography, 20, 773-782. https://doi.org/10.1016/j.echo.2007.03.002
[9] 李恒. 心脏超声技术评价左室舒张功能的研究现状[J]. 重庆医学, 2010, 39(14): 1920-1922.
[10] Lppes, L.R., Joao, I., Vinhas, H., et al. (2014) Early Flow Propagrtion Velocity for Assessment of Diastolic Func-tion Imyocardial Infarction Treated with Acute Reperfusion. Revista Portuguesa de Cardiologia, 24, 65.
[11] Oechlinger, S., Berger, D., Bryner, J., et al. (2013) Left Ventrieular Torsion Abnormalities in Septic Shock and Corrective Effect of Volume Loading: A Pilot Study. Canadian Journal of Cardiology, 29, 1665-1671. https://doi.org/10.1016/j.cjca.2013.10.007
[12] 严萍萍, 张文芳, 孙彬, 等. 左房内径变化鉴别左室舒张功能假性正常[J]. 超声医学杂志, 2015, 25(9): 2080- 2083.
[13] 史迪, 于学忠. 心脏超声检查对血流动力学的评估[J]. 中华急诊医学杂志, 2014, 23(10): 1182-1183.
[14] 覃小娟, 谢明星, 吕清, 等. 超声三维斑点追踪成像技术评价慢性心力衰竭患者左心室整体应变的初步研究[J]. 中华医学超声杂志, 2010, 7(8): 1332-1337.
[15] Jung, H., Vijay, V., Theodore, A. and Mittal, R. (2013) Multiphysics Computational Models for Cardiac Flow and Virtual Cardiography. International Journal for Numerical Methods in Biomedical Engineering, 29, 850-869. https://doi.org/10.1002/cnm.2556
[16] Lindberg, L., Johansson, S. and Perez-De-Sa, V. (2014) Validation of an Ultrasound Dilution Technology for Cardiac Output Measurement and Shunt Detection in Infants and Children. Pediatric Critical Care Medicine, 15, 139-147. https://doi.org/10.1097/PCC.0000000000000053
[17] Kooijman, M.N., de Jonge, L.L., Steegers, E., et al. (2014) Third Trimester Fetal Hemodynamics and Cardiovascular Outcomes in Childhood: The Generation R Study. Journal of hypertension, 32, 1275-1282. https://doi.org/10.1097/HJH.0000000000000174
[18] Citerio, G., Bakker, J., Bassetti, M., et al. (2014) Year in Review in Intensive Care Medicine 2013: I. Acute Kidney Injury, Ultrasound, Hemodynamics, Cardiac Arrest, Transfusion, Neurocritical Care, and Nu-trition. Intensive Care Medicine, 40, 147-159. https://doi.org/10.1007/s00134-013-3184-5
[19] Huang, C.-H., Zheng, S., Jianjian, W., et al. (2013) Compensation of In-Plane Rigid Motion for in Vivo Intracoronary Ultrasound Image Sequence. Computers in Biology and Medicine, 43, 1077-1085. https://doi.org/10.1016/j.compbiomed.2013.05.004
[20] Van der Graaf, A.M., Zeeman, G.G., Groen, H., Roberts, C. and Dekker, G. (2013) Non-Invasive Assessment of Maternal Hemodynamics in Early Pregnancy. Pregnancy Hypertension, 3, 261-269. https://doi.org/10.1016/j.preghy.2013.07.005
[21] Spencer, K.T., Kimura, B.J., Korcarz, C.E., et al. (2013) Focused Cardiac Ultra-sound: Recommendations from the American Society of Echocardiography. Journal of the American Society of Echocardiography, 26, 567-581. https://doi.org/10.1016/j.echo.2013.04.001
[22] Hu, H., Ge, X. and Cai, H. (2014) Monitoring of Intracranial Pressure and Cerebral Hemodynamics by Transjugular Dural Sinus Catheterization. Journal of Clinical Anesthesia, 26, 147-148. https://doi.org/10.1016/j.jclinane.2013.11.006
[23] Liu, C., Chang, C., Chang, T., et al. (2015) Carotid Artery Stenting Improves Cerebral Hemodynamics Regardless of the Flow Direction of Ophthalmic Artery. Angiology, 66, 180-186. https://doi.org/10.1177/0003319714522854
[24] Nam, K., Bok, T., Jin, C. and Paeng, D. (2014) Asymmetric Radial Expansion and Contraction of Rat Carotid Artery Observed Using a High-Resolution Ultrasound Imaging System. Ultrasonics, 54, 233-240. https://doi.org/10.1016/j.ultras.2013.04.012
[25] Juhl-Olsen, P., Vistisen, S.T., Christiansen, L.K., et al. (2013) Ultrasound of the Inferior Vena Cava Does Not Predict Hemodynamic Response to Early Hemorrhage. The Journal of Emergency Medicine, 45, 592-597. https://doi.org/10.1016/j.jemermed.2013.03.044
[26] Razazi, K., Thille, A.W., Carteaux, G., et al. (2014) Effects of Pleural Effusion Drainage on Oxygenation, Respiratory Mechanics, and Hemodynamics in Mechanically Ventilated Patients. Annals of the American Thoracic Society, 11, 1018-1024. https://doi.org/10.1513/AnnalsATS.201404-152OC
[27] Milan, A., et al. (2013) Ascending Aortic Dilatation, Arterial Stiffness and Cardiac Organ Damage in Essential Hypertension. Journal of Hypertension, 31, 109-116.