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静电场对红细胞与冰晶间相互机械性作用的影响 被引量:9

THE EFFECT OF EXTERNAL ELECTRIC FIELD ON THE MECHANICAL INTERACTIONS BETWEEN ICE CRYSTALS AND RED BLOOD CELLS DURING FREEZING
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摘要 以红细胞悬液为研究模型 ,通过在对其进行慢速冻结的过程中引入静电场 ,具体研究了静电场对降温过程中冰晶形成与生长的影响 ,以及由此而引起的冰晶与细胞间相互机械作用的变化。实验结果表明 :静电场在一定程度上改变了冰晶的形成与生长特性 ,在较强的静电场的影响下 ,冰晶明显变粗 ,成为块状 ,细胞完全融入粗大的冰晶之中 ,在冻结的末期 ,细胞不再受到冰晶挤压 ,从而减少了其所受的机械性损伤。 Using suspension of RBC as a model solution system,a high voltage DC electric fi eld into its low-cooling-rate freezing process is introduced.How can an extern al static electric field affect the formation and growth characteristics of the ice during freezing so as to change the interaction manner between the cells and crystals is investigated. It was found that under the strong electric field,the ice crystals took on a dramaticly asymmetric appearance, and their stems were c hanged into board-like ones.The cells were frozen within the ice crystal thorou ghly and they had not been mechanically pushed or squeezed at the later period o f the growth of the ice at all.The mechanical damage caused by the interaction b etween the ice crystals and cells during freezing was alleviated remarkably.
作者 陈程 陶乐仁 华泽钊
机构地区 上海理工大学低温生物医学与技术研究所
出处 《低温工程》 CAS CSCD 北大核心 2004年第5期45-49,共5页 Cryogenics
基金 国家自然科学基金重点项目 (5 983 62 40 )资助。
关键词 红细胞悬液 影响 机械性损伤 改变 冰晶 作用 实验结果 静电场 晶形 冻结 ice crystallization low-cooling-rate freezing sus pension of RBC electric field mechanical damage
分类号 O441 [理学—电磁学]
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参考文献14

  • 1Mazur P,Leibo S P,Chu E H Y. A two factor hypothesis of freezing injury-evidence from Chinese hamaster tissue culture cells. Exp. Cell.Res. ,1972,71:345 -355
  • 2Nei T. Mechanism of hemolysis of erythrocytes by freezing at near - zero temperatures, I.Microscopic observation of hemolyzing erythrocytes during the freezing and thawing process. Cryobiology, 1967,4:153 -156
  • 3Nei T. Mechanism of hemolysis of erythrocytes by freezing at near - zero temperatures, Ⅱ. Investigations of factors affecting hemolysis by freezing. Cryoliology, 1968,4: 303 - 308
  • 4Bronstein V L,Itkin Y A,Ishkov G S. Rejection and capture of cells by ice crystals on freezing aqueous solutions, J. Cryst. Growth, 1981,52:345 - 349
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  • 9Jung D H,Yang J H, Jhon M S. The effect of an external electric field on the structure of liquid water using molecular dynamics simulations,J. Chem. Phys. 1999,244:331 - 337
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低温工程
2004年 第5期

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