Fluid handling apparatus for an automated analyzer
First Claim
1. A high throughput, high sensitivity, random access, automated magnetic particle chemiluminescence immunoassay analyzer having a reagent transport apparatus for transporting reagent containers to at least one aspiration position and for maintaining solid phase reagent magnetic microparticles in suspension in liquid, the reagent transport apparatus comprising:
- a plurality of agitating units disposed in a first circular array concentric with a primary vertical axis of rotation and collectively rotatable about the primary vertical axis of rotation, each of the agitating units comprisinga reagent container holder rotatable about a respective secondary vertical axis of rotation, anda first toothed wheel coupled to the respective reagent container holder, the first toothed wheel being coaxial with the respective secondary vertical axis of rotation, whereby rotation of the first toothed wheel causes rotation of the respective reagent container holder about the respective secondary vertical axis of rotation;
a plurality of solid phase reagent containers, each containing a solid phase reagent comprised of paramagnetic microparticles in a liquid, each disposed upon a respective one of the reagent container holders of the agitating units, and each having an internal agitating feature formed therein for agitating the respective solid phase reagent;
a first motor for selectively rotating the plurality of agitating units about the primary vertical axis of rotation whereby a selected first reagent container is positionable at the at least one aspiration position;
a plurality of mounting units disposed in a second circular array concentric with the primary vertical axis of rotation and collectively rotatable about the primary vertical axis of rotation;
a plurality of labeled reagent containers, each containing chemiluminescence labeled reagent comprised of a chemiluminescence label and each disposed upon a respective one of the mounting units;
a reversible second motor having an output shaft extending therefrom; and
a second toothed wheel coupled to the output shaft of the second motor and in simultaneous mechanical communication with each of the first toothed wheels of the plurality of agitating units, whereby reversible rotation of the output shaft and the second toothed wheel by the second motor causes the first toothed wheels and the respective reagent container holders coupled thereto to rotate about the respective secondary vertical axes of rotation in an oscillatory manner, thereby causing each of the solid phase reagent containers disposed in conjunction with a respective one of the agitating units to rotate in an oscillatory manner and causing the internal agitating feature to agitate the contents of the respective container to suspend the paramagnetic microparticles in the liquid.
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Accused Products
Abstract
An analyzer for performing automated assay testing. The analyzer includes a storage and conveyor system for conveying cuvettes to an incubation or processing conveyor, a storage and selection system for test sample containers, a storage and selection system for reagent containers, sample and reagent aspirating and dispensing probes, a separation system for separating bound from unbound tracer or labeled reagent, a detection system and date collection/processing system. All of the subunits of the machine are controlled by a central processing unit to coordinate the activity of all of the subunits of the analyzer. The analyzer is specifically suited for performing heterogeneous binding assay protocols, particularly immunoassays.
276 Citations
32 Claims
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1. A high throughput, high sensitivity, random access, automated magnetic particle chemiluminescence immunoassay analyzer having a reagent transport apparatus for transporting reagent containers to at least one aspiration position and for maintaining solid phase reagent magnetic microparticles in suspension in liquid, the reagent transport apparatus comprising:
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a plurality of agitating units disposed in a first circular array concentric with a primary vertical axis of rotation and collectively rotatable about the primary vertical axis of rotation, each of the agitating units comprising a reagent container holder rotatable about a respective secondary vertical axis of rotation, and a first toothed wheel coupled to the respective reagent container holder, the first toothed wheel being coaxial with the respective secondary vertical axis of rotation, whereby rotation of the first toothed wheel causes rotation of the respective reagent container holder about the respective secondary vertical axis of rotation; a plurality of solid phase reagent containers, each containing a solid phase reagent comprised of paramagnetic microparticles in a liquid, each disposed upon a respective one of the reagent container holders of the agitating units, and each having an internal agitating feature formed therein for agitating the respective solid phase reagent; a first motor for selectively rotating the plurality of agitating units about the primary vertical axis of rotation whereby a selected first reagent container is positionable at the at least one aspiration position; a plurality of mounting units disposed in a second circular array concentric with the primary vertical axis of rotation and collectively rotatable about the primary vertical axis of rotation; a plurality of labeled reagent containers, each containing chemiluminescence labeled reagent comprised of a chemiluminescence label and each disposed upon a respective one of the mounting units; a reversible second motor having an output shaft extending therefrom; and a second toothed wheel coupled to the output shaft of the second motor and in simultaneous mechanical communication with each of the first toothed wheels of the plurality of agitating units, whereby reversible rotation of the output shaft and the second toothed wheel by the second motor causes the first toothed wheels and the respective reagent container holders coupled thereto to rotate about the respective secondary vertical axes of rotation in an oscillatory manner, thereby causing each of the solid phase reagent containers disposed in conjunction with a respective one of the agitating units to rotate in an oscillatory manner and causing the internal agitating feature to agitate the contents of the respective container to suspend the paramagnetic microparticles in the liquid. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A method of transporting reagent containers in a high throughput, high sensitivity, random access, automated magnetic particle chemiluininescence immunoassay analyzer, the method of transporting comprising:
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providing a plurality of agitating units in a first circular array concentric with a primary vertical axis of rotation, the plurality of agitating units being collectively rotatable about the primary vertical axis of rotation, each of the agitating units comprising a reagent container holder rotatable about a respective secondary vertical axis of rotation, and a first toothed wheel coupled to the respective reagent container holder, the first toothed wheel being coaxial with the respective secondary vertical axis of rotation, whereby rotation of the first toothed wheel causes rotation of the respective reagent container holder about the respective secondary vertical axis of rotation; disposing each of a plurality of solid phase reagent containers in conjunction with a respective one of the reagent container holders of the agitating units, each of the solid phase reagent containers containing a solid phase reagent comprising paramagnetic microparticles in a liquid and having an internal agitating feature formed therein for agitating the respective solid phase reagent; rotating the plurality of agitating units about the primary vertical axis of rotation via selective operation of a first motor whereby a selected first reagent container is positionable at at least one aspiration position; providing a plurality of mounting units in a second circular array concentric with the primary vertical axis of rotation, the plurality of mounting units being collectively rotatable about the primary vertical axis of rotation; disposing each of a plurality of labeled reagent containers in conjunction with a respective one of the mounting units, each of the plurality of labeled reagent containers containing labeled reagent comprising a chemiluminescence label; providing a second motor having an output shaft; providing a second toothed wheel in communication with the output shaft of the second motor and in simultaneous mechanical communication with each of the first toothed wheels of the plurality of agitating units; and reversibly rotating the output shaft and the second toothed wheel by the second motor, thereby causing the first toothed wheels and the respective reagent container holders coupled thereto to simultaneously rotate about the respective secondary vertical axes of rotation in an oscillatory manner, thereby causing each of the solid phase reagent containers disposed upon a respective one of the agitating units to rotate in an oscillatory manner, and thereby causing the internal agitating feature within each of the plurality of solid phase reagent containers to agitate the contents of the respective solid phase reagent container to suspend the paramagnetic microparticles in the liquid. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32)
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Specification