IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0297501
(2011-11-16)
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등록번호 |
US-8222044
(2012-07-17)
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발명자
/ 주소 |
- Bhullar, Raghbir S.
- Surridge, Nigel
- Funke, Tom
- Walling, Paul Douglas
- Riggles, Randall K.
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출원인 / 주소 |
- Roche Diagnostics Operations, Inc.
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대리인 / 주소 |
Woodard, Emhardt, Moriarty, McNett & Henry LLP
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인용정보 |
피인용 횟수 :
9 인용 특허 :
277 |
초록
▼
A test strip with a sample receiving chamber having a novel flared portion that terminates in a sample receiving opening. The flared portion provides a reservoir from which sample fluid can be drawn into the capillary or sample receiving chamber. The wider opening provided by the present invention i
A test strip with a sample receiving chamber having a novel flared portion that terminates in a sample receiving opening. The flared portion provides a reservoir from which sample fluid can be drawn into the capillary or sample receiving chamber. The wider opening provided by the present invention is easier to “target” with a sample fluid. In preferred embodiments, the hydrophilic reagent layer extends to the dosing end or side of the test strip and further promotes wicking of the sample into the sample receiving chamber and thus reduces dose hesitation. In other preferred embodiments, a tapered dosing end is provided on the test strip in combination with the flared portion, and this combination create a test strip that will draw sample fluid into the sample receiving chamber regardless of where along the dosing edge of the test strip the fluid sample makes contact.
대표청구항
▼
1. A method of manufacturing a plurality of test strips, comprising: (a) providing a web of base substrate material;(b) forming a plurality of electrode sets on the web of base substrate material;(c) providing a reagent layer covering at least one electrode of each electrode set;(d) depositing a fil
1. A method of manufacturing a plurality of test strips, comprising: (a) providing a web of base substrate material;(b) forming a plurality of electrode sets on the web of base substrate material;(c) providing a reagent layer covering at least one electrode of each electrode set;(d) depositing a film of spacing material having a series of cavities defined therein such that each one of the cavities aligns with a respective one of the electrode sets on the web of base substrate material, each of the cavities having a flared portion that comprises a location for a fluid receiving opening and an elongated portion extending from the flared portion, the location for the fluid receiving opening has a first width and the elongated portion has a second width, wherein the first width is greater than the second width;(e) attaching a covering layer to the film of spacing material to create a series of capillary chambers defined by the series of cavities in the spacing material, the web of base substrate material, and the covering layer; and(f) cutting the web into the plurality of test strips. 2. The method of claim 1, further comprising: the covering layer defines a plurality of vents; andpositioning the plurality of vents over the series of capillary chambers such that the plurality of vents is in communication with the series of capillary chambers. 3. The method of claim 1, further comprising: the covering layer includes two pieces; andpositioning the two pieces to form a gap over the series of capillary chambers to define a series of vents in communication with the capillary chambers. 4. The method of claim 1, further comprising: laminating the film of spacing material to the web of base substrate material. 5. The method of claim 1, further comprising: cutting the film of spacing material to define the series of cavities. 6. A method of manufacturing a plurality of test strips, comprising: (a) providing a web of base substrate material;(b) forming a plurality of electrode sets on the web of base substrate material;(c) providing a reagent layer covering at least one electrode of each electrode set;(d) providing a spacing material layer having a plurality of cavities defined therein such that each of the cavities aligns with a respective one of the electrode sets on the web of base substrate material, each of the cavities defining a location for a fluid receiving opening, each of the cavities having a first pair of opposing sidewalls and a second pair of opposing sidewalls wherein the second pair of opposing sidewalls extend from the fluid receiving opening to the first pair of opposing sidewalls such that the space between the second pair of opposing sidewalls is wider at the fluid receiving opening than at the first pair of opposing sidewalls;(e) attaching a covering layer to the spacing material layer to form a plurality of capillary chambers defined by the cavities in the spacing material, the web of base substrate material, and the covering layer; and(f) cutting the web into the plurality of test strips. 7. The method of claim 6, further comprising: wherein the web includes a dosing end; andcutting the web along the dosing end to form a dosing edge. 8. The method of claim 7, further comprising: cutting the web at the dosing end to form two sides that angle toward one another and terminate at the dosing edge, the dosing edge being narrower than a width of the test strip. 9. The method of claim 8, wherein the dosing edge is wider than the fluid receiving opening. 10. The method of claim 6, further comprising: cutting the spacing material layer to define the plurality of cavities. 11. A method of manufacturing a plurality of test strips, comprising: (a) providing a web of base substrate material having a plurality of electrode sets formed thereon;(b) providing a spacing layer over the web of base substrate material, the spacing layer defining a plurality of cavities wherein each of the cavities aligns with a respective one of the electrode sets on the web of base substrate material;(c) forming a testing area in each of the cavities;(d) attaching a covering layer to the spacing layer to form a plurality of capillary chambers, the plurality of capillary chambers defined by the cavities, the web of base substrate material, and the covering layer; wherein each of the capillary chambers defines a location for a fluid receiving opening, the fluid receiving opening having a first width and the capillary chamber having a second width at the testing area, wherein the first width of the capillary chamber at the fluid receiving opening is greater than the second width of the capillary chamber at the testing area; and(e) cutting the web into the plurality of test strips. 12. The method of claim 11, wherein forming a testing area includes placing a reagent layer covering at least one electrode of each electrode set. 13. The method of claim 11, further comprising: laminating an upper transfer adhesive layer to a top surface of the spacing layer, wherein the upper transfer adhesive layer includes a release liner and an adhesive; andlaminating a lower transfer adhesive layer to a bottom surface of the spacing layer, wherein the lower transfer adhesive layer includes a release liner and an adhesive. 14. The method of claim 13, further comprising: cutting through the upper and lower transfer adhesive layers and the spacing layer to form a plurality of pre-capillary portions; andremoving the plurality of pre-capillary portions to define the plurality of cavities in the spacing layer. 15. The method of claim 11, further comprising: wherein the covering layer includes a body cover layer and a chamber cover layer, the body cover layer being separated from the chamber cover layer by a gap; andlaminating the body cover layer and the chamber cover layer to the spacing layer such that the gap overlies the plurality of capillary chambers to define a vent in communication with the capillary chambers. 16. The method of claim 11, further comprising: cutting the spacing layer to define the plurality of cavities. 17. The method of claim 1, further comprising: cutting the web along the flared portion to define the fluid receiving opening.
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