Patent application number | Description | Published |
20080300789 | Method for determining the order of execution of assays of a sample in a laboratory automation system - A method for arranging assays in an order for execution in a system that employs a plurality of clinical analyzers, typically automated clinical analyzers. The method comprises the steps of (a) prioritizing the order of execution of a number of individual assays in a set of assays for a given sample in a sample container, the priority of an individual assay in the set of assays for the given sample being specified by the sensitivity of the individual assay, wherein there is at least one sample-to-sample carryover contribution from at least one other sample, an assay of the at least one other sample preceding the individual assay of the given sample; (b) comparing the sum of the sample-to-sample carryover contribution(s) from the at least one other sample for at least one assay of the at least one other sample that precedes the individual assay of the given sample to the sensitivity threshold of the individual assay of the given sample; and (c) using this comparison to determine whether to establish an order for the execution of assays for the given sample that includes the individual assay of the given sample or dispense at least a portion of the given sample into at least one additional container in order to carry out the assay. | 12-04-2008 |
20090117004 | SYSTEM FOR AUTOMATICALLY LOADING IMMUNOASSAY ANALYZER - A component of a laboratory automation system that integrates (a) separating a solid magnetic substrate from the liquid contents of a reaction vessel, (b) management of the thermal characteristics of the component of the laboratory automation system, (c) automated loading of multi-well plates and tip combs into the component of the laboratory automation system, (d) automated unloading of multi-well plates and tip combs from the component of the laboratory automation system, and (e) reading of radio frequency identification tags attached to multi-well plates. | 05-07-2009 |
20090117620 | AUTOMATED ANALYZER FOR CLINICAL LABORATORY - A laboratory automation system that is capable of carrying out clinical chemistry assays, immunoassays, amplification of nucleic acid assays, and any combination of the foregoing, said laboratory automation system employing at least one of micro-well plates and deep multi-well plates as reaction vessels. The use of micro-well plates as reaction vessels enables the laboratory automation system to assume a variety of arrangements, i.e., the laboratory automation system can comprise a variety of functional modules that can be arranged in various ways. In order to effectively carry out immunoassays by means of micro-well plates, a technique known as inverse magnetic particle processing can be used to transfer the product(s) of immunoassays from one micro-well of a micro-well plate to another. | 05-07-2009 |
20090282932 | GAS SCRUBBER FOR AUTOMATED CLINICAL ANALYZER - A device and method for extending the useful life of a bulk liquid used in an automated clinical analyzer. Air from the atmosphere surrounding the automated clinical analyzer that displaces the bulk liquid consumed from a container is routed through a gas scrubber in order to remove or at least reduce the quantity of at least one contaminant present in that air. The gas scrubber is positioned between the bulk liquid in the container and the atmosphere surrounding the container. The gas scrubber contains a reagent that is capable of reacting with a contaminant in the atmosphere, whereby a required characteristic(s) of the bulk liquid does (do) not change excessively prior to the date that the bulk liquid is consumed. For example, if the contaminant is carbon dioxide, and the required characteristic of the bulk liquid is the level of pH of the bulk liquid, the reagent in the gas scrubber prevents the level of pH of the bulk liquid from changing excessively prior to the date that the bulk liquid is consumed. | 11-19-2009 |
20090309726 | SYSTEM FOR TRACKING THE LOCATION OF COMPONENTS, ASSEMBLIES, AND SUB-ASSEMBLIES IN A MEDICAL INSTRUMENT - A system and method for the tracking of medical instrument, components, assemblies, and sub-assemblies thereof, and maintenance information relating to the foregoing. According to the system, radio frequency identification tags are attached to or affixed on the medical instrument itself for the purpose of locating, identifying, monitoring, tracking the medical instrument and updating the maintenance and replacement activities relating to the medical instrument. In addition, radio frequency identification tags are attached to or affixed on the components, the assemblies, and the sub-assemblies, of the medical instrument in order to locate, identify, monitor, track the components, the assemblies, and the sub-assemblies and update the maintenance and replacement activities relating to these components, assemblies, and sub-assemblies. The medical instrument itself can have a radio frequency identification tag; each major component of the automated diagnostic instrument can have a radio frequency identification tag; each minor component of the automated diagnostic instrument can have a radio frequency identification tag on the container in which it is packaged. A master radio frequency identification tag correlated with a database is needed in order to collect information relating to all of the radio frequency identification tags associated with the medical instrument. | 12-17-2009 |
20100322822 | SYSTEM FOR MANAGING INVENTORY OF BULK LIQUIDS - A system for managing bulk liquids for an automated clinical analyzer. The system comprises (a) at least one local reservoir for storing a bulk liquid for impending use, (b) at least one container for holding a bulk liquid before the liquid is transferred to a local reservoir, and (c) a controller for monitoring the level of a bulk liquid in a local reservoir. The local reservoir for storing a bulk liquid for impending use can be a trough. The use of troughs for storing a reagent, a diluent, or some other treating agent for impending use enables an aspirating/dispensing device having a plurality of pipettes to aspirate and dispense the reagent, diluent, or other treating agent at a high rate of throughput. The controller can monitor the level of a liquid in (a) a local reservoir for storing a bulk liquid for imminent use and the level of liquid in a (b) container for holding a bulk liquid before the liquid is transferred to a local reservoir. In the laboratory automation system described herein, the container for holding a bulk liquid before the liquid is transferred to a local reservoir can be a bottle. Other desirable features in the system include, but are not limited to, pump(s), valves, liquid level sensors. | 12-23-2010 |
20100324722 | SYSTEM FOR MANAGING INVENTORIES OF REAGENTS - A system for managing the inventory of reagents for a laboratory automation system. The system for managing the inventory of reagents comprises a controller, software for the controller, and a refrigerator capable of refrigerating reagents, detecting the presence or absence of reagents in the refrigerator, and detecting the location of reagents in the refrigerator. The system for managing the inventory of reagents is connected to a laboratory automation system. The laboratory automation system comprises at least one clinical analyzer. A typical system for managing inventories of reagents includes an operator interface for the loading of boxes of reagents and other supplies, radio frequency identification system for identification of inventory and tracking, robotic mechanisms for loading containers onto the track system and removing containers from the track system, de-capping equipment, refrigeration equipment, and information technology connections to laboratory analyzers and vendors. | 12-23-2010 |
20110147294 | SYSTEM FOR PROCESSING MAGNETIC PARTICLES - A system for separating a solid magnetic substrate from liquid contents of a reaction vessel, the system comprising at least one micro-well plate having a plurality of rows and a plurality of magnets arranged in at least two rows. In one embodiment, the at least two rows of the plurality of magnets are controlled so as to cause the magnets in the at least two rows of magnets to move in unison. In another embodiment, one row of the at least two rows of the plurality of magnets is controlled so as to cause the magnets in said one row to move at a first velocity in the vertical direction and another row of the at least two rows of the plurality of magnets is controlled so as to cause the magnets in that other row to move at a second velocity in the vertical direction. | 06-23-2011 |
20110150704 | CONTAINER HAVING GAS SCRUBBER INSERT FOR AUTOMATED CLINICAL ANALYZER - A device and method for extending the useful life of a liquid in a container used in an automated clinical analyzer. The liquid comprises a material subject to deterioration, the subject material capable of deteriorating as the result of reaction with a contaminant in a gas present in the atmospheric air surrounding the container. Atmospheric air surrounding the container that displaces the liquid consumed from a container is routed through a gas scrubber insert in order to remove or at least reduce the quantity of at least one contaminant present in that air. The gas scrubber insert is positioned between the liquid in the container and the atmospheric air surrounding the container. The gas scrubber insert contains a reagent that is capable of reacting with a contaminant in the atmospheric air surrounding the container, whereby a required characteristic(s) of the liquid does (do) not change excessively prior to the date that the liquid is consumed. For example, if the contaminant is carbon dioxide, and the required characteristic of the liquid is the level of pH of the liquid, the reagent in the gas scrubber insert prevents the level of pH of the liquid from changing excessively prior to the date that the liquid is consumed. | 06-23-2011 |
20120282684 | AUTOMATED ANALYZER FOR CLINICAL LABORATORY - A laboratory automation system that is capable of carrying out clinical chemistry assays, immunoassays, amplification of nucleic acid assays, and any combination of the foregoing, said laboratory automation system employing at least one of micro-well plates and deep multi-well plates as reaction vessels. The use of micro-well plates as reaction vessels enables the laboratory automation system to assume a variety of arrangements, i.e., the laboratory automation system can comprise a variety of functional modules that can be arranged in various ways. In order to effectively carry out immunoassays by means of micro-well plates, a technique known as inverse magnetic particle processing can be used to transfer the product(s) of immunoassays from one micro-well of a micro-well plate to another. | 11-08-2012 |
20120308435 | SYSTEM, APPARATUS, AND METHOD FOR CLOSED TUBE SAMPLING AND OPEN TUBE SAMPLING FOR AUTOMATED CLINICAL ANALYZERS - A centrifuge to which sample tubes can be introduced while the centrifuge is in motion. The centrifuge comprises a carousel having an upper portion and a lower portion. The upper portion of the carousel has a plurality of positions for sample tubes for a centrifugation operation, a plurality of drive mechanisms attached to the upper portion of the carousel, a movable element mounted upon each drive mechanism, the movable element capable of traversing the length of the drive mechanism when the drive mechanism is actuated, a sample tube-holding assembly comprising a sample tube holder and a bearing attached to each movable element, and at least one balancing element capable of contributing to a force vector that cancels an imbalance vector generated by rotation of the centrifuge. | 12-06-2012 |
20130137093 | SYSTEMS AND METHODS FOR MANAGING INVENTORIES OF REAGENTS - A system for managing the inventory of reagents for a laboratory automation system. The system for managing the inventory of reagents comprises a controller, software for the controller, and a refrigerator capable of refrigerating reagents, detecting the presence or absence of reagents in the refrigerator, and detecting the location of reagents in the refrigerator. The system for managing the inventory of reagents is connected to a laboratory automation system. The laboratory automation system comprises at least one clinical analyzer. A typical system for managing inventories of reagents includes an operator interface for the loading of boxes of reagents and other supplies, radio frequency identification system for identification of inventory and tracking, robotic mechanisms for loading containers onto the track system and removing containers from the track system, de-capping equipment, refrigeration equipment, and information technology connections to laboratory analyzers and vendors. | 05-30-2013 |
20130159135 | SYSTEM AND METHOD FOR AUTOMATED LABORATORY INVENTORY MANAGEMENT USING RFID TECHNOLOGY - In one aspect, a computer readable memory medium comprising program instructions for graphically developing a connectivity driver is provided. The computer readable memory medium is a non-transitory medium. The program instructions are executable by a processor to generate a purchase order for a laboratory item, transmit the purchase order to a remote computer in order to communicate the purchase order to a vendor, receive an advance shipping notice generated in response to the purchase order, receive item information stored in an RFID tag of a tagged item received at the delivery location, and check the item information against the advance shipping notice in order to verify that the tagged item is the same as the ordered laboratory item. The purchase order specifies a delivery location. | 06-20-2013 |
20140127818 | SYSTEMS AND METHODS FOR MANAGING INVENTORIES OF REAGENTS - A system for managing the inventory of reagents for a laboratory automation system. The system for managing the inventory of reagents comprises a controller, software for the controller, and a refrigerator capable of refrigerating reagents, detecting the presence or absence of reagents in the refrigerator, and detecting the location of reagents in the refrigerator. The system for managing the inventory of reagents is connected to a laboratory automation system. The laboratory automation system comprises at least one clinical analyzer. A typical system for managing inventories of reagents includes an operator interface for the loading of boxes of reagents and other supplies, radio frequency identification system for identification of inventory and tracking, robotic mechanisms for loading containers onto the track system and removing containers from the track system, de-capping equipment, refrigeration equipment, and information technology connections to laboratory analyzers and vendors. | 05-08-2014 |
20140234181 | SYSTEM FOR MANAGING INVENTORY OF BULK LIQUIDS - A system for managing bulk liquids for an automated clinical analyzer. The system comprises (a) at least one local reservoir for storing a bulk liquid for impending use, (b) at least one container for holding a bulk liquid before the liquid is transferred to a local reservoir, and (c) a controller for monitoring the level of a bulk liquid in a local reservoir. The local reservoir for storing a bulk liquid for impending use can be a trough. The use of troughs for storing a reagent, a diluent, or some other treating agent for impending use enables an aspirating/dispensing device having a plurality of pipettes to aspirate and dispense the reagent, diluent, or other treating agent at a high rate of throughput. The controller can monitor the level of a liquid in (a) a local reservoir for storing a bulk liquid for imminent use and the level of liquid in a (b) container for holding a bulk liquid before the liquid is transferred to a local reservoir. In the laboratory automation system described herein, the container for holding a bulk liquid before the liquid is transferred to a local reservoir can be a bottle. Other desirable features in the system include, but are not limited to, pump(s), valves, liquid level sensors. | 08-21-2014 |
20140271369 | System and Method for Processing Both Clinical Chemistry and Immunoassay Tests - Disclosed herein are instruments, systems and methods for performing automated integrated analysis of both clinical chemistry assay and immunoassay tests on a sample. The system includes a common process subsystem module; a clinical chemistry analyzer module; an immunoassay analyzer module; and a plurality of additional modules. The common process subsystem module is configured to position one or more reaction vessels containing aliquots of the sample for analysis by the clinical chemistry analyzer module, the immunochemistry analyzer module or both analyzer modules. The included immunochemistry analyzer module of the instrument and system is configured to perform multiplex FRET analysis on homogeneous solutions, thereby increasing the flexibility, throughput and robustness of the resultant instrument and systems. | 09-18-2014 |