DISPOSABLE TEST SENSOR WITH IMPROVED SAMPLING ENTRANCE

US 20150160150A1
Filed: 12/06/2013
Published: 06/11/2015
Est. Priority Date: 12/06/2013
Status: Active Grant

First Claim

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1. An electrochemical test sensor comprising:

a continuous base layer having a sampling end and an electric contact end and being coated with a conductive coating, the base layer having electrodes at the sampling end, and electric contacts at the electric contact end;

a middle layer formed of an electrically insulating material having a width approximately equal to a width of the base layer, and having a sampling end and an electric contact end, the middle layer being attached to the base layer such that a portion of the electric contact end of the base layer extends beyond the electric contact end of the middle layer, the middle layer forming a cutout region defined by a portion of a front edge being recessed from the middle layer sampling end along nearly the entire width of the middle layer;

a continuous upper layer having a sampling end and an electric contact end, the continuous upper layer being attached to the middle layer such that the electric contact end is aligned with the electric contact end of the middle layer; and

a fluid chamber defined on a top by the continuous upper layer, on a bottom by the continuous base layer, on one side by the recessed edge of the middle layer defining the cutout region, and having a sampling entrance defined by an open side opposite to the one side, the fluid chamber sized and configured to receive a fluid by capillary action, and sized and configured to expose the electrodes of the base layer to the fluid.

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Abstract

A disposable electrochemical test sensor designed to facilitate sampling of fluid samples. It has a fluid chamber having a novel extra wide sampling entrance, but no additional air escape vent. The chamber provides a reservoir from which a sample fluid can be drawn into the chamber through capillary action. The extra wide sampling entrance provided by the present invention can draw blood into the chamber through any part of the opening, thus it allows easy targeting the samples with small volume, picking up smeared samples and it is more tolerant to users who jam the tip of the sensor into users'"'"' finger. The extra wide sampling entrance provided by the present invention also serves as air escape vent.

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20 Claims

1. An electrochemical test sensor comprising:
- a continuous base layer having a sampling end and an electric contact end and being coated with a conductive coating, the base layer having electrodes at the sampling end, and electric contacts at the electric contact end;
  
  a middle layer formed of an electrically insulating material having a width approximately equal to a width of the base layer, and having a sampling end and an electric contact end, the middle layer being attached to the base layer such that a portion of the electric contact end of the base layer extends beyond the electric contact end of the middle layer, the middle layer forming a cutout region defined by a portion of a front edge being recessed from the middle layer sampling end along nearly the entire width of the middle layer;
  
  a continuous upper layer having a sampling end and an electric contact end, the continuous upper layer being attached to the middle layer such that the electric contact end is aligned with the electric contact end of the middle layer; and
  
  a fluid chamber defined on a top by the continuous upper layer, on a bottom by the continuous base layer, on one side by the recessed edge of the middle layer defining the cutout region, and having a sampling entrance defined by an open side opposite to the one side, the fluid chamber sized and configured to receive a fluid by capillary action, and sized and configured to expose the electrodes of the base layer to the fluid.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The electrochemical test sensor of claim 1 wherein the middle layer is formed of a two-sided adhesive tape.
  - 3. The electrochemical test sensor of claim 1 wherein the upper layer further comprises a hydrophilic material on a surface facing the fluid chamber.
  - 4. The electrochemical test sensor of claim 1 wherein the continuous upper layer prevents a passage of air through it, and wherein the continuous base layer prevents a passage of air through it.
  - 5. The electrochemical test sensor of claim 1 wherein the base layer further comprises a chemistry within the electrodes configured to cause an electrochemical signal once exposed to the fluid within the fluid chamber.
  - 6. The electrochemical test sensor of claim 1 wherein the sampling end of the middle layer is slightly recessed from a front edge of the upper layer sampling end and a front edge of the base layer sampling end.
  - 7. The electrochemical test sensor of claim 1 wherein the cutout of the middle layer is semi-circular, the semi-circular cutout having a diameter slightly less than the width of the middle layer.

8. An electrochemical test sensor comprising:
- a base layer having a sampling end and an electric contact end and being coated with a conductive coating, the base layer having electrodes at the sampling end, and electric contacts at the electric contact end;
  
  a middle layer formed of an electrically insulating material having a width approximately equal to a width of the base layer, and having a sampling end and an electric contact end, the middle layer being attached to the base layer such that a portion of the electric contact end of the base layer extends beyond the electric contact end of the middle layer, the middle layer forming a semi-circular cutout region defined by a recessed front edge portion from the middle layer sampling end, a diameter of the semi-circular cutout region being slightly less than the width of the middle layer;
  
  an upper layer having a sampling end and an electric contact end, the upper layer being attached to the middle layer such that the sampling end is aligned with the sampling end of the middle layer and such that the electric contact end is aligned with the electric contact end of the middle layer; and
  
  a fluid chamber defined on a top by the upper layer, on a bottom by the base layer, on one side by the recessed edge of the middle layer defining the cutout region, and having a sampling entrance defined by an open side opposite to the one side, the fluid chamber sized and configured to receive a fluid by capillary action, and sized and configured to expose the electrodes of the base layer to the fluid.
- View Dependent Claims (9, 10, 11, 12, 13)
- - 9. The electrochemical test sensor of claim 8 wherein the middle layer is formed of a two-sided adhesive tape.
  - 10. The electrochemical test sensor of claim 8 wherein the upper layer further comprises a hydrophilic material on a surface facing the fluid chamber.
  - 11. The electrochemical test sensor of claim 8 wherein the upper layer is a continuous layer that prevents a passage of air through it, and wherein the base layer is a continuous layer that prevents a passage of air through it.
  - 12. The electrochemical test sensor of claim 8 wherein the base layer further comprises a chemical composition within the electrodes configured to cause an electrochemical signal once exposed to the fluid within the fluid chamber.
  - 13. The electrochemical test sensor of claim 8 wherein the sampling end of the middle layer is slightly recessed from the front edges of the upper layer sampling end and the base layer sampling end.

14. An electrochemical test sensor comprising:
- a base layer having a sampling end and an electric contact end and being coated with a conductive coating, the base layer having electrodes at the sampling end, and electric contacts at the electric contact end;
  
  a middle layer formed of an electrically insulating material having a width approximately equal to a width of the base layer, and having a sampling end and an electric contact end, the middle layer being attached to the base layer such that a portion of the electric contact end of the base layer extends beyond the electric contact end of the middle layer, while a portion of the base sampling end extends beyond the middle layer sampling end, the middle layer forming a semi-circular cutout region defined by a recessed front edge portion from the middle layer sampling end, a diameter of the semi-circular cutout region being slightly less than the width of the middle layer;
  
  an upper layer having a sampling end and an electric contact end, the upper layer being attached to the middle layer such that the upper layer sampling end extends slightly beyond the middle layer sampling end, and such that the electric contact end is aligned with the electric contact end of the middle layer;
  
  a fluid chamber defined on a top by the upper layer, on a bottom by the base layer, on one side by the recessed edge of the middle layer defining the cutout region, and having a sampling entrance on an open side opposite to the one side;
  
  wherein the upper layer, middle layer, and base layer define two side openings in communication with the fluid chamber, the two side openings being defined by the upper layer and base layer extending beyond the sampling end of the middle layer; and
  
  wherein the fluid chamber is sized and configured to receive a fluid by capillary action, and sized and configured to expose the electrodes of the base layer to the fluid.
- View Dependent Claims (15, 16, 17, 18, 19, 20)
- - 15. The electrochemical test sensor of claim 14 wherein the middle layer is formed of a two-sided adhesive tape.
  - 16. The electrochemical test sensor of claim 14 wherein the upper layer further comprises a hydrophilic material on a surface facing the fluid chamber.
  - 17. The electrochemical test sensor of claim 14 wherein the upper layer is a continuous layer that prevents a passage of air through it, and wherein the base layer is a continuous layer that prevents a passage of air through it.
  - 18. The electrochemical test sensor of claim 14 wherein the base layer further comprises a chemistry within the electrodes configured to cause an electrochemical signal once exposed to the fluid within the fluid chamber.
  - 19. The electrochemical test sensor of claim 14 wherein the sampling entrance comprises the open side, and the two side openings, the open side being along an entire front width of the sensor, the two side openings being adjacent to the open side, and defining a continuous opening.
  - 20. The electrochemical test sensor of claim 19 wherein the sampling entrance is sized to allow an escape of air simultaneously with an entrance of fluid.

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Current Assignee
Changsha Sinocare, Inc.
Original Assignee
Changsha Sinocare, Inc.
Inventors
Che, Hongli, Li, Shaobo, Cai, Xiaohua

Granted Patent

US 9,518,951 B2
Time in Patent Office

Days
Field of Search
US Class Current

1/1
CPC Class Codes

B01L 2200/0621   Control of the sequence of ...

B01L 2200/0684   Venting, avoiding backpress...

B01L 2200/16   Reagents, handling or stori...

B01L 2300/0645   Electrodes

B01L 2300/0663   Whole sensors

B01L 2300/0825   Test strips

B01L 2300/0887   Laminated structure

B01L 2300/16   Surface properties and coat...

B01L 2300/161   Control and use of surface ...

B01L 2400/0406   capillary forces

B01L 2400/0694   vents used to stop and indu...

B01L 3/502715   characterised by interfacin...

B01L 3/502723   characterised by venting ar...

B01L 3/50273   characterised by the means ...

G01N 27/3272   Test elements therefor, i.e...

DISPOSABLE TEST SENSOR WITH IMPROVED SAMPLING ENTRANCE

First Claim

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Abstract

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DISPOSABLE TEST SENSOR WITH IMPROVED SAMPLING ENTRANCE

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

1 Citation

20 Claims

Specification

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Solutions

Use Cases

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