DocumentCode
1088830
Title
Movement of blood cells in liquid by nonuniform traveling field
Author
Masuda, Shin ; Washizu, Masao ; Kawabata, Ichiro
Volume
24
Issue
2
fYear
1988
Firstpage
217
Lastpage
222
Abstract
A study of the motion of biological cells in aqueous solution using a traveling-field-type electric curtain device is performed. Cells driven by such a device undergo circular motions induced by the rotating traveling field, and as a result of field nonuniformity and drift in the direction of the wave propagation. Electrolytic dissociations of the aqueous medium are avoided by limiting the applied voltage below the theoretical dissociation voltage, while the field strength necessary for the actuation of the cell motion is insured by making the electrode dimensions as small as 100 μm. The experiments are performed using sheep erythrocytes. The device shows a maximum performance with six-phase voltage of frequency 3 Hz and amplitude 1.5 V, where the transport of cells takes place without perceivable damage to the cells
Keywords
biological effects of fields; blood; cellular effects of radiation; cellular transport and dynamics; electric fields; 1.5 V; 3 Hz; applied voltage; biological cells; blood cells; dissociation voltage; electric curtain device; electric fields; electrode; field strength; haemodynamics; nonuniform traveling field; sheep erythrocytes; wave propagation; Biological cells; Blood; Cells (biology); Electrodes; Frequency; Industry Applications Society; Performance evaluation; Testing; Transportation; Voltage;
fLanguage
English
Journal_Title
Industry Applications, IEEE Transactions on
Publisher
ieee
ISSN
0093-9994
Type
jour
DOI
10.1109/28.2859
Filename
2859
Link To Document