| The paper is the experimental research about the cellular biological effects of millimeter wave. The influence of low intensity millimeter wave on the biophysical property of erythrocytes was studied by biophysical and electrophysiological methods from different research level. The studied biophysical property of erythrocytes was included the deformability and aggregating ability,the stability of cellular configuration, ionic transport of membrane and ionic channel etc. The experimental results and the possible connection with respecting theories were well analyzed and discussed. The reliability and standardization in experimental research about the biological effects of electromagnetic wave were discussed also. The meaning of the full investigation is provided the experimental basis for further research about the biological effects of millimeter wave. Especially more effective studied way and experience were gained from that the technology of patch clamp was used in the field of research about the cellular effects of millimeter.The paper were composed of six parts of contents:The relative background , present status and meaning of the task as well as investigating methods and contents were introduced in the first chapter.In chapter two, the influence of low-density millimeter wave on the biomechanical property of erythrocytes were studied using the rheological methods. Depending on the biomechanical theory, the variety of deformability and aggregating ability, which caused by millimeter wave, were finded in radiated intro blood samples.In chapter three, the variety of configurational stability of radiated erythrocytes by millimeter wave were discovered from two aspects. One quantitative index is the osmotic frangibility and anther intuitionistic result is the morphological change of cell.The variety of the ionic transports of cellular membrane that caused by the millimeter wave was described in chapter four. The transport of anion and cation such as NO2- and Ca2+ between membrane of erythrocytes were investigated separately.In chapter five, the technology of patch clamp was used to investigate the variety of Ca2+-activated-K+ channel of the erythrocytes radiated by millimeter. The... |
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