Measurement device for measuring electric signal emitted by biological sample

US 20050004442A1
Filed: 11/19/2002
Published: 01/06/2005
Est. Priority Date: 08/07/1997
Status: Active Grant

First Claim

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1. A measurement device for measuring an electric signal from a biological sample, comprising:

a flow pass extending in a first direction;

a pair of introduction orifices connected to both ends of the flow pass, respectively;

a concave well formed in the flow pass;

a reference electrode formed in the flow pass;

at least a microelectrode formed in the well;

a first communicating tube connected to the well and extending in a second direction different from the first direction;

a second communicating tube connected to other part of the well than part of the well to which the first communicating tube is connected and extending in a third direction different from the first and second directions;

first and second resistance baths connected to the first and second communicating tubes, respectively; and

first and second resistors arranged in the first and second communicating tubes, respectively, or the first and second resistance baths, respectively.

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Abstract

A measurement device 10 includes a measurement cell 11. The measurement cell 11 includes a substrates 17 and a substrate 16 formed on the substrate 17. The substrates 16 and 17 are bonded to each other. Thus, a flow pass 9 is formed in the measurement cell 11. As shown in FIG. 3, on the substrate 17 of the measurement cell 11, provided are a concave well 19, a protruding microelectrode 1 connected to a terminal 4a and formed on a side wall surface of the well 19, communicating tubes 15a and 15b connected to both of side surfaces of the well 19 (i.e., the flow pass 9) to face to each other, resistance baths 6a and 6b connected to the communicating tubes 15a and 15b, thin film resistors 3a and 3b arranged in the resistance baths 6a and 6b, and a reference electrode 2 connected to a terminal 4b.

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18 Claims

1. A measurement device for measuring an electric signal from a biological sample, comprising:
- a flow pass extending in a first direction;
  
  a pair of introduction orifices connected to both ends of the flow pass, respectively;
  
  a concave well formed in the flow pass;
  
  a reference electrode formed in the flow pass;
  
  at least a microelectrode formed in the well;
  
  a first communicating tube connected to the well and extending in a second direction different from the first direction;
  
  a second communicating tube connected to other part of the well than part of the well to which the first communicating tube is connected and extending in a third direction different from the first and second directions;
  
  first and second resistance baths connected to the first and second communicating tubes, respectively; and
  
  first and second resistors arranged in the first and second communicating tubes, respectively, or the first and second resistance baths, respectively.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
- - 2. The measurement device of claim 1, wherein the first and second communicating tubes are arranged so as to have line-symmetry with respect to the flow pass.
  - 3. The measurement device of claim 1, wherein the first and second communicating tubes are arranged so that a straight line extending along the first communicating tube and a straight line extending along the second communicating tube intersect with each other toward said at least a microelectrode.
  - 4. The measurement device of claim 1, wherein said at least a microelectrode includes a protruding end portion.
  - 5. The measurement device of claim 1, wherein said at least a microelectrode is provided plural in number.
  - 6. The measurement device of claim 5, wherein a surface area of the reference electrode is larger than a total surface area of the plurality of microelectrodes.
  - 7. The measurement device of claim 1, further comprising:
    - a first substrate; and
      
      a second substrate formed on the first substrate, wherein the first substrate includes the well, the reference electrode, the microelectrode, the first and second communicating tubes, the first and second resistance baths, and the first and second resistors, and wherein the second substrate includes a concave portion which serves as the flow pass when the second substrate is provided on the first substrate and extends in the first direction and cavities which serve as the pair of introduction orifices when the second substrate is provided on the first substrate and are formed in both ends of the concave portion, respectively.
  - 8. The measurement device of claim 7, wherein the second substrate is formed of a transparent material.
  - 9. The measurement device of claim 7, wherein the first substrate is formed of a semiconductor material.
  - 10. The measurement device of claim 1, wherein a volume of the first communicating tube is smaller than one fifth of a volume of the first resistance bath, and wherein a volume of the second communicating tube is smaller than one fifth of a volume of the second resistance bath.
  - 11. The measurement device of claim 1, wherein a surface of the flow pass has been subjected to hydrophilic processing.
  - 12. The measurement device of claim 1, wherein each of the first and second resistors has a comb shape.
  - 13. The measurement device of claim 3, further comprising:
    - a third communicating tube connected to other part of the well than the parts of the well to which the first and second communicating tubes are connected and extending in a fourth direction different from the second and third directions;
      
      a third resistance bath connected to the third communicating tube; and
      
      a third resistor arranged in the third communicating tube or the third resistance bath.
  - 14. The measurement device of claim 13, wherein the first and second communicating tubes are arranged so that a line extending along each said tubes extends toward said at least a microelectrode and each said tubes has an opening toward said at least a microelectrode, and wherein the third communicating tube is arranged so that the end portion of said at least a microelectrode is located substantially on a straight line extending along the third communicating tube.
  - 15. The measurement device of claim 1, further comprising:
    - another flow pass extending in the first direction;
      
      another pair of introduction orifices connected to both ends of said another flow pass, respectively;
      
      another concave well formed in said another flow pass;
      
      another reference electrode formed in said another flow pass;
      
      at least another microelectrode formed in said another well;
      
      another first communicating tube connected to said another well and extending in the second direction different from the first direction;
      
      another second communicating tube connected to other part of said another well than part of said another well to which said another first communicating tube is connected;
      
      another first resistance bath and another second resistance bath connected to said another communicating tube and said another communicating tube, respectively; and
      
      another first resistor and another second resistor arranged in said another first communicating tube and said another second communicating tube, respectively, or in said another first resistance bath and said another second resistance bath, respectively.

16. A measurement method for measuring an electrical signal from a biological sample, the method comprising the steps of:
- a) preparing a measurement device including a flow pass extending in a first direction, a pair of introduction orifices connected to both ends of the flow pass, respectively, a concave well formed in the flow pass, a reference electrode formed in the flow pass, at least a microelectrode formed in the well, a first communicating tube connected to the well and extending in a second direction different from the first direction, a second communicating tube connected to other part of the well than part of the well to which the first communicating tube is connected and extending in a third direction different from the first and second directions, first and second resistance baths connected to the first and second communicating tubes, respectively, and first and second resistors arranged in the first and second communicating tubes, respectively, or the first and second resistance baths, respectively;
  
  b) introducing an electrolyte solution into the flow pass by reduction of a pressure in the flow pass to fill the flow pass;
  
  c) returning the pressure in the flow pass to an atmosphere pressure;
  
  d) arranging the biological sample in the well;
  
  e) closing up the flow pass;
  
  f) applying a current to the first or second resistor to bring said at least a microelectrode in contact with the biological sample; and
  
  g) measuring change in an electrical signal from the biological sample.
- View Dependent Claims (17, 18)
- - 17. The measurement method of claim 16, further comprising after the step f), the step h) of applying an electrical pulse to said at least a microelectrode.
  - 18. The measurement method of claim 16 or 17, further comprising the step i) of administering a drug from one of the pair of introduction orifices.

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Current Assignee
Panasonic Corporation (Panasonic Holdings Corporation)
Original Assignee
Panasonic Corporation (Panasonic Holdings Corporation)
Inventors
Oka, Hiroaki, Ozaki, Nobuhiko, Sugihara, Hirokazu

Granted Patent

US 7,462,324 B2
Time in Patent Office

Days
Field of Search
US Class Current

600/407
CPC Class Codes

B01L 3/5027 by integrated microfluidic ...

G01N 33/48707 by electrical means G01N33/...

Measurement device for measuring electric signal emitted by biological sample

First Claim

2 Assignments

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Abstract

16 Citations

18 Claims

Specification

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Measurement device for measuring electric signal emitted by biological sample

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

16 Citations

18 Claims

Specification

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Solutions

Use Cases

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