Disposable cartridge for fluid analysis
First Claim
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1. A disposable blood analysis cartridge for analyzing a blood sample, comprising:
- a microfluidics circuit having an optical scattering fluid measurement channel and an optical absorbance measurement channel;
the optical absorbance measurement channel including;
a sample introduction region;
a plasma separation region in fluid communication with the sample introduction region;
a sub channel in fluid communication with the plasma separation region, the sub channel configured to receive a plasma portion of a blood sample that is introduced into the sample introduction region, after the blood sample has passed through the plasma separation region;
the sub channel having a cuvette, and a gas permeable membrane downstream of the cuvette;
a vacuum port situated downstream of the gas permeable membrane; and
wherein a negative pressure applied to the vacuum port may draw the plasma portion of the blood sample from the plasma separation region, into the sub channel and to the cuvette, so that an optical absorbance of the plasma portion of the blood sample can be measured at the cuvette.
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Abstract
A disposable blood analysis cartridge for analyzing a blood sample including an optical absorbance measurement channel is described. The optical absorbance measurement channel includes a plasma separation region and at least one sub channel including a cuvette that is in fluid communication with the plasma separation region and configured to receive a plasma portion of a blood sample that has been passed through the plasma separation region. A negative pressure may be applied to the cartridge to draw the sample through the plasma separation region and into the sub channel including the cuvette.
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Citations
21 Claims
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1. A disposable blood analysis cartridge for analyzing a blood sample, comprising:
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a microfluidics circuit having an optical scattering fluid measurement channel and an optical absorbance measurement channel; the optical absorbance measurement channel including; a sample introduction region; a plasma separation region in fluid communication with the sample introduction region; a sub channel in fluid communication with the plasma separation region, the sub channel configured to receive a plasma portion of a blood sample that is introduced into the sample introduction region, after the blood sample has passed through the plasma separation region; the sub channel having a cuvette, and a gas permeable membrane downstream of the cuvette; a vacuum port situated downstream of the gas permeable membrane; and wherein a negative pressure applied to the vacuum port may draw the plasma portion of the blood sample from the plasma separation region, into the sub channel and to the cuvette, so that an optical absorbance of the plasma portion of the blood sample can be measured at the cuvette. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A method of analyzing a blood sample in a cartridge, the method comprising:
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receiving a blood sample in the cartridge, the cartridge having an optical absorbance measurement channel that includes a sample introduction region, a plasma separation region, a sub channel extending from the plasma separation region, the sub channel having a cuvette and a gas permeable membrane downstream of the cuvette, the cartridge also having a vacuum port downstream of the gas permeable membrane; applying a negative pressure to the vacuum port, such that the negative pressure draws at least some of the blood sample through the plasma separation region, and draws at least some of the plasma from the blood sample from the plasma separation region, into the sub channel, and to the cuvette; and measuring an optical absorbance of the plasma portion of the blood sample in the cuvette. - View Dependent Claims (17, 18, 19)
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20. A disposable blood analysis cartridge for analyzing a blood sample, comprising:
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an optical absorbance measurement channel including; a sample introduction region; a plasma separation region in fluid communication with the sample introduction region; a sub channel in fluid communication with the plasma separation region, the sub channel configured to receive a plasma portion of a blood sample that is introduced into the sample introduction region, after the blood sample has passed through the plasma separation region; the sub channel having a cuvette, and a gas permeable membrane downstream of the cuvette; a vacuum port situated downstream of the gas permeable membrane; and wherein a negative pressure applied to the vacuum port may draw the plasma portion of the blood sample from the plasma separation region, into the sub channel and to the cuvette, so that an optical absorbance of the plasma portion of the blood sample can be measured at the cuvette. - View Dependent Claims (21)
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Specification
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Current AssigneeHoneywell International Inc.
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Original AssigneeHoneywell International Inc.
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InventorsWang, Tzu-Yu, Bardell, Ron, Seifried, Lynn
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Primary Examiner(s)MERKLING, SALLY ANNE
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Application NumberUS13/337,900Publication NumberTime in Patent Office889 DaysField of Search422/417, 422/554US Class Current422/554CPC Class CodesB01L 2200/0636 Focussing flows, e.g. to la...B01L 2300/0681 FilterB01L 2300/0816 Cards, e.g. flat sample car...B01L 2300/0864 comprising only one inlet a...B01L 2300/0867 Multiple inlets and one sam...B01L 2300/0874 Three dimensional networkB01L 2400/0406 capillary forcesB01L 2400/049 vacuumB01L 2400/0655 pinch valvesB01L 3/502738 characterised by integrated...B01L 3/502753 characterised by bulk separ...G01N 2021/0346 Capillary cells; MicrocellsG01N 2021/058 Flat flow cellG01N 2021/513 Cuvettes for scattering mea...G01N 2035/00158 Elements containing microar...G01N 21/05 Flow-through cuvettes G01N2...G01N 21/51 inside a container, e.g. in...G01N 21/532 with measurement of scatter...G01N 2201/0245 with insertable-removable partG01N 33/4915 using flow cells flow cytom...
