Sample preparation apparatus
First Claim
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1. An apparatus to process an input fluid sample including one or more targeted analytes, the apparatus comprising:
- a. an actuation instrument comprising;
i. a drive motor configured to provide discrete increments of actuation; and
ii. a plurality of valve actuation mechanisms;
b. a cartridge coupled to the actuation instrument, the cartridge comprising;
i. a driving syringe coupled to the drive motor;
ii. a plurality of reagent syringes, wherein a fluid input port of each reagent syringe is commonly coupled to the driving syringe, further wherein each reagent syringe is configured to displace a reagent fluid in response to an actuation of the driving syringe, each reagent fluid is used to process the one of more target analytes;
iii. a plurality of processing vessels, each processing vessel configured to process the one or more target analytes;
iv. microfluidic circuitry including a plurality of valves and fluid lines configured to couple the driving syringe, the plurality of reagent syringes, and the plurality of processing vessels, wherein each valve is coupled to one valve actuation mechanism and each valve is configured to actuate no more than once; and
c. a control module coupled to the drive motor and the plurality of valve actuation mechanisms, wherein the control module is configured to provide electrical control signals to the drive motor and the plurality of valve actuation mechanisms to independently actuate the drive motor and each of the plurality of valve actuation mechanisms, further wherein the control module comprises program instructions configured to actuate the drive motor and selective ones of the plurality of valve actuation mechanism such that a position of the one or more target analytes within the cartridge is determined according to a cumulative amount of actuation increments of the drive motor.
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Abstract
A capture and purification apparatus is configured as a stand-alone apparatus or as part of a larger system. The capture and purification apparatus can be configured as a microfluidic cartridge that includes microfluidic circuitry and individually controlled valves. The microfluidic cartridge can be configured to function independently, or can be configured to be coupled to a separate instrument that provides the actuation to perform the capture and purification process. The capture and purification apparatus is configured as a volume-driven system that applies single-direction valves, a single fluid driving device, and fluid lines to control and discretely direct fluid flow within a full-loaded fluidic system. Such control enables various fluid sample processing techniques to be performed including, but not limited to, lysis, thermal cycling, and/or target analyte capture and purification, for example using a combination of ion-exchange chromatography and size-exclusion chromatography (SEC).
80 Citations
19 Claims
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1. An apparatus to process an input fluid sample including one or more targeted analytes, the apparatus comprising:
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a. an actuation instrument comprising; i. a drive motor configured to provide discrete increments of actuation; and ii. a plurality of valve actuation mechanisms; b. a cartridge coupled to the actuation instrument, the cartridge comprising; i. a driving syringe coupled to the drive motor; ii. a plurality of reagent syringes, wherein a fluid input port of each reagent syringe is commonly coupled to the driving syringe, further wherein each reagent syringe is configured to displace a reagent fluid in response to an actuation of the driving syringe, each reagent fluid is used to process the one of more target analytes; iii. a plurality of processing vessels, each processing vessel configured to process the one or more target analytes; iv. microfluidic circuitry including a plurality of valves and fluid lines configured to couple the driving syringe, the plurality of reagent syringes, and the plurality of processing vessels, wherein each valve is coupled to one valve actuation mechanism and each valve is configured to actuate no more than once; and c. a control module coupled to the drive motor and the plurality of valve actuation mechanisms, wherein the control module is configured to provide electrical control signals to the drive motor and the plurality of valve actuation mechanisms to independently actuate the drive motor and each of the plurality of valve actuation mechanisms, further wherein the control module comprises program instructions configured to actuate the drive motor and selective ones of the plurality of valve actuation mechanism such that a position of the one or more target analytes within the cartridge is determined according to a cumulative amount of actuation increments of the drive motor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
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Specification
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Current AssigneeMicroFluidic Systems, Inc.
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Original AssigneeMicroFluidic Systems, Inc.
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InventorsYuan, Bob
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Primary Examiner(s)Warden, Jill
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Assistant Examiner(s)KWAK, DEAN P
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Application NumberUS12/290,283Publication NumberTime in Patent Office1,232 DaysField of Search422/67, 422500-505, 422/509, 422/547, 422/554, 436/180US Class Current422/404CPC Class CodesB01L 2200/04 Exchange or ejection of car...B01L 2200/0621 Control of the sequence of ...B01L 2200/10 Integrating sample preparat...B01L 2200/16 Reagents, handling or stori...B01L 2300/0681 FilterB01L 2300/0816 Cards, e.g. flat sample car...B01L 2300/0867 Multiple inlets and one sam...B01L 2300/1827 using resistive heaterB01L 2400/0478 pistonsB01L 2400/0622 distribution valves, valves...B01L 3/502715 characterised by interfacin...B01L 3/50273 characterised by the means ...B01L 3/502738 characterised by integrated...B01L 7/52 with provision for submitti...G01N 30/96 using ion-exchange G01N30/0...G01N 35/08 using a stream of discrete ...Y10T 436/2575 Volumetric liquid transfer
