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轴流式血泵溶血数学模型的探究 被引量:3

Exploration on Hemolytic Mathematic Model of Axial Flow Blood Pump
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摘要 溶血的定量评价对于血泵的设计和研究十分重要,而建立血泵溶血的数学模型,对于血泵溶血的预测,提高其血液相容性具有十分重要作用。本文在分析与血泵溶血相关因素的基础上,首先从能量守恒定律确定轴流式血泵叶轮驱动力的输出功可分两部分提供给血液:用于提高血液压力的能量以及用作血液溶血的能量。然后采用动力系统转矩方程和能量方程,建立血泵辅助循环溶血模型。最终建立了能够定量评价血泵在不同工作状态下(正常状态和抽吸状态)溶血程度的数学公式。本文对轴流式血泵的溶血问题提供了新的研究思路,将对血泵及其控制系统的改进提供重要的依据。 The quantitative evaluation of hemolysis is very important for the designing and studying a blood pump, so establishing a hemolytic mathematic model is very significant for predicting the hemolysis, improving the blood compatibility of axial flow blood pump and reducing the damage to blood. Based on analyzing the correlative factors of hemolysis, first we studied the hemolysis problem from the viewpoint of conservation of energy, and ascertained that the output power produced from the pump' s impellers could be divided into two parts,one was used to increase blood pressure and the other was led to hemolysis. After that we confirmed the hemolytic model by dynamic system torque and energy equations. Finally, we established the mathematical formula of blood pump in different conditions (normal and suction) to evaluate the hemolytic value. This paper provides a new idea for studying the hemolytic problems, and gives scientific basis for improving a blood pump and its controlling system.
作者 轩艳姣 常宇 宋淼
机构地区 北京工业大学生命科学与生物工程学院
出处 《北京生物医学工程》 2011年第2期127-131,194,共6页 Beijing Biomedical Engineering
基金 北京工业大学项目(31500054R5001) 国家学术工作人才小组培训项目(01500054R8001) 国家自然科学基金项目(11072012)资助
关键词 溶血 轴流血泵 数学模型 hemolysis axial flow blood pump mathematic model
分类号 R318.6 [医药卫生—生物医学工程]
  • 相关文献

参考文献11

  • 1吴树明.人工心脏[J].山东医药,2003,43(6):60-61. 被引量:1
  • 2封志刚,曾培,茹伟民,袁海宇,王芳群,钱坤喜.叶轮设计对叶轮式人工心脏溶血性能的影响[J].中国生物医学工程学报,2003,22(2):190-192. 被引量:4
  • 3田步升,李国荣,崔爱玲,张文平,李正,任兵,李京幸.负压对机械转流管道中血流溶血过程的影响[J].中华物理医学与康复杂志,2000,22(3):181-182. 被引量:2
  • 4侯旭 ,陈槐卿 .细胞膜和细胞骨架在细胞受力过程中的保护作用[J].国外医学(生物医学工程分册),2005,28(4):193-198. 被引量:4
  • 5陈建中,张锡文,赵春章,白净.微型轴流血泵溶血的数值模拟[J].北京生物医学工程,2007,26(2):117-119. 被引量:7
  • 6Laroche C,Beney L,Marechal PA,et al.The effect of osmotic pressure on the membrane fluidity of Saccharomyces cerevisiae at different physiological temperatures[J].Applied Microbiology and Biotechnology,2001,56(1-2):249-254.
  • 7Apel J,Paul R,Klaus S,et al.Assessment of hemolysis related quantities in a microaxial blood pump by computational fluid dynamics[J].Artif Organs,2001,25(5):341-347.
  • 8Wachter DDe,Verdonck P.Numerical calculation of hemolysis levels in peripheral hemodialysis canulas[J].Artif Organs,2002,26(7):576-582.
  • 9Tamagawa M,Minakawa S.Predictions of index of hemolysis in shear blood flow (effects of exposure time under shear stress on prediction accuracy)[J].JSME Int J Ser C,2003,46(2):604-613.
  • 10Goubergrits L,Affeld K.Numerical estimation of blood damage in artificial organs[J] ,Artif.Organs,2004,28(5):499-507.

二级参考文献57

  • 1赵春章,张锡文,白净.可植入式微型轴流血泵流场的数值模拟[J].机械工程学报,2005,41(7):19-23. 被引量:7
  • 2钱喜坤,潘治.叶轮泵同Sarns7000转子泵的溶血比较[J].胸心血管外科杂志,1988,4(2):110-112.
  • 3[2]Nimi H, Sngihara M. Cyclic loading on the red cell membrane in a shear flow: A possible cause of hemolysis[J]. J Biomed Eng Trans ASME, 1985,107:91-95.
  • 4[3]Rathod MS. Theoretical Analysis and Design of a Centrifugal Blood Pump for Optimum Blade Number and Angles:(PhD Dissertation)[M]. Mississippi State University,1975.
  • 5[5]Perry L. Some mechanical effects that influence hemolysis[J]. Tran. ASAIO,1965.
  • 6钱坤喜,费青,马巧妹.叶轮血泵与转子泵的溶血比较[J].医疗器械,1987,11(1):31-33.
  • 7D'Addario M,Arora PD,Fan J,et al. Cytoprotection against mechanical forces delivered through beta 1 integrins requires induction of filamin A[J]. J Biol Chem,2001,276(34): 31969-31977.
  • 8Lehtonen JY, Kinnunen PK. Phospholipase A2 as a mechanosensor [J].Biophys J, 1995,68:1888-1894.
  • 9Ajubi NE ,Klein-Nulend J,Alblas MJ,et al. Signal transduction pathways involved in fluid flowinduced PGE2 production by cultured osteocytes [J]. Am J Physiol, 1999,276 : 171-178.
  • 10Yoshimura K,Nomura T,Sokabe M. Loss-of-function mutations at the rim of the funnel of mechanosensilive channel MscL [J]. Biophys J,2004,86(4): 2113-2120.

共引文献12

同被引文献34

引证文献3

二级引证文献8

北京生物医学工程
2011年 第2期

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