Patent ID: 6245207
Filing Date: 2001-06-12
Classification: B01D,B03D,C02F,C12M,G01N

Abstract:
A cell separation device comprising:a rectangular parallelepiped tube arranged to allow a sample solution containing cells having different charges to be separated correspondingly to said charges of said cells to flow;an inlet from which the sample solution containing said cells is introduced into said rectangular parallelepiped tube;a pair of ultrasound sources, each of which contacts an opposite outer surface of said rectangular parallelepiped tube, wherein ultrasound waves generated from said pair of ultrasound sources transmit an acoustic radiation force on said cells and cause said cells having substantially no charge to move toward a center of flow of said sample solution in a direction perpendicular to the flow of said sample solution;an anode electrode plate and a cathode electrode plate, each arranged on a different inner opposite surface of said rectangular parallelepiped tube, wherein each of said ultrasound sources faces a different one of said anode electrode plate and said cathode electrode plate, and said anode electrode plate and said cathode electrode plate transmit an electrostatic force generated by applying a non-alternating electric field on said cells and cause said cells each having a charge to move toward one of said anode electrode plate and said cathode electrode plate and away from the center of flow of said sample solution, in the direction perpendicular to the flow of said sample solution;an ultrasound generation control unit arranged to cause the respective ultrasound sources to generate ultrasound waves so as to generate a standing wave of 1/2 wavelength, wherein a width of the inner opposite surface of said rectangular parallelepiped tube is equal to the 1/2 wavelength;a power source circuit unit arranged to generate potential difference between said anode electrode plate and said cathode electrode plate;a first outlet from which said cells having substantially no charge and coming together by the acoustic radiation force to the center of the flow of said sample solution flow out; anda second outlet from which said cells, each being separated continuously by competition between the acoustic radiation force and the electrostatic force and each having a charge coming together to one of said anode electrode plate and said cathode electrode plate, flow out.