Abstract: A system for transporting a sample in a clinical analysis system includes a sample container holding the sample, a ferromagnetic base connected to a bottom portion of the sample container, and a puck. The puck is used for transporting the sample container in the clinical analysis system. The puck comprises an embedded magnet for securing the sample container to the puck using the ferromagnetic base.

Abstract: The inventive concepts disclosed herein are generally directed to the need to measure a microsample and obtain one or more measurement for one or more analyte in the microsample by configuring a sensor array having one or more first reference signal source interlaced with one or more analyte sensor positioned along the longitudinal axis the sensor body and a second reference signal source positioned downstream of the sensor body along a sample flow path.

Abstract: Disclosed herein are immunoassays for detecting an anti-thyroid peroxidase antibody in a biological sample from a subject and/or diagnosing a thyroid disease in a subject. The disclosed immunoassays employ a recombinant cynomolgus monkey thyroid peroxidase (rTPO) and assess the level of anti-thyroid peroxidase antibody-induced formation or disruption of complexes comprising a solid support and the rTPO.

Abstract: Hydrophilic, high quantum yield, chemiluminescent acridinium compounds with increased light output, improved stability, fast light emission and decreased non specific binding are disclosed. The chemiluminescent acridinium esters possess hydrophilic, branched, electron-donating functional groups at the C2 and/or C7 positions of the acridinium nucleus.

Abstract: Reagents for use in sandwich immunoassays for haptens are disclosed, along with kits containing same. Also disclosed are diagnostic immunoassay methods that utilize these immunoassay reagents in a particle enhanced agglutination detection assay for detecting haptens/drugs in samples.

Abstract: In one embodiment, a biological sample analyzer has a housing having at least one outer wall that defines a cavity therein. A receptacle, which can support a consumable holder containing a biological sample, is disposed within the cavity. At least one heater applies heat to the consumable holder when the consumable holder is supported by the receptacle. At least one heater sensor detects a temperature of the receptacle over time. A controller directs the at least one heater to apply an elevated temperature to the consumable holder and reduces an amount of heat applied to the consumable holder before the consumable holder exceeds a target temperature that is less than the elevated temperature. By applying the elevated temperature, the consumable holder can be heated quicker than if it where heated at only the target temperature.

Abstract: The present invention relates to methods and compositions to remove or reduce biotin interference from certain assays.

Abstract: A system for coupling photometers to an incubation ring for use in in vitro diagnostics comprises one or more light sources, and an incubation ring assembly, and two photometers. An incubation ring assembly comprises an internal trough and an external trough. Each trough comprises (a) an internal wall comprising an internal aperture and (b) an external wall comprising an external aperture. A first photometer comprises: a first optics housing directing light from the light sources through the external aperture of the internal trough, and a first detector positioned to receive the light through the internal aperture of the internal trough. A second photometer comprises a second optics housing directing the light from the light sources through the internal aperture of the external trough, and a second detector positioned to receive the light through the external aperture of the external trough.

Abstract: The inventive concepts herein relate to performing block retrieval on a block to be processed of a urine sediment image. The method comprises: using a plurality of decision trees to perform block retrieval on the block to be processed, wherein each of the plurality of decision trees comprises a judgment node and a leaf node, and the judgment node judges the block to be processed to make it reach the leaf node by using a block retrieval feature in a block retrieval feature set to form a block retrieval result at the leaf node, and at least two decision trees in the plurality of decision trees are different in structures thereof and/or judgments performed by the judgment nodes thereof by using the block retrieval feature; and integrating the block retrieval results of the plurality of decision trees so as to form a final block retrieval result.

Abstract: A method of training a neural network (Convolutional Neural Network-CNN) including reduced graphical annotation input is provided. The training method can be used to train a Testing CNN that can be used for determining Hemolysis (H), Icterus (I), and/or Lipemia (L), or Normal (N) of a serum or plasma portion of a test specimen. The training method includes capturing training images of multiple specimen containers including training specimens, generating region proposals of the serum or plasma portions of the training specimens; and selecting the best matches for the location, size and shape of the region proposals for the multiple training specimens. The obtained features (network and weights) from the training CNN can be used in a testing CNN. Quality check modules and testing apparatus adapted to carry out the training method, and characterization methods using abounding box regressor are described, as are other aspects.

Abstract: Provided herein are color charts and water color pigment solutions useful, for example, in the calibration of reflectance-based diagnostic analyzers.

Abstract: Systems and methods for use in an in vitro diagnostics setting incorporating magnetic shielding to reduce exposure of any of samples, reactants, devices or people from exposure or prolonged exposure to magnetic or electromagnetic fields generated with the system. Some embodiments provide an automation system for use in an in vitro diagnostics setting comprising an automation track having a sidewall provided with magnetic shielding. In some embodiments, the magnetic shielding comprises an 80% nickel alloy.

Abstract: Systems and methods include an optimization-based load planning module for laboratory analyzers of bio-fluid samples. The optimization-based load planning module is executable on a computer server and is configured to optimize assay (lab test) assignments across a large number of laboratory analyzers based on one or more of the following user selected and weighted objectives: reduced turn-around-time, load balancing, efficient reagent usage, lower quality assurance costs, and/or improved system robustness. The optimization-based load planning module outputs a load plan comprising computer executable instructions configured to cause a system controller of a laboratory analyzer system to schedule and direct each requested test to be performed at one or more selected laboratory analyzers of the laboratory analyzer system in accordance with the user selected and weighted objectives. Other aspects are also described.

Abstract: A method for delivering a fluid sample through a channel of a diagnostic consumable is disclosed. The method includes receiving the diagnostic consumable in a reader comprising a delivery system, operatively connecting the delivery system to the channel, and applying pressure pulses to the channel at a predetermined frequency. A reader for reading a diagnostic consumable is also disclosed.

Abstract: Disclosed is a sensor assembly including a flow channel; two or more working electrodes located in the flow channel; and one or more reference electrodes located in the flow channel, wherein a total number of working electrodes is greater than a total number of reference electrodes. Volume in the flow channel may be minimized Liquid testing apparatus and methods of testing test liquids are provided, as are other aspects.

Abstract: In the various illustrative embodiments herein, test devices are described with opposing sensor arrays, same side contacts, and an integrated heating element.

Abstract: An analyzer system for in vitro diagnostics includes a sample handler module having a robot arm that delivers samples from drawers into carriers on a linear synchronous motor automation track. Samples are delivered via the automation track to individual track sections associated with individual analyzer modules. Analyzer modules aspirate sample portions directly from the sample carriers and perform analysis thereon.

Abstract: Methods are disclosed of designing antibodies for a sandwich assay for a small molecule having a molecular weight of about 500 to about 2,000. The method comprises preparing a first antibody that binds to the small molecule, and preparing a second antibody that binds to the small molecule at a portion of the small molecule other than a portion to which the first antibody binds. The second antibody is prepared from an immunogen that comprises a predetermined portion of the small molecule. The antibodies may be employed in sandwich assays for the small molecule.

Abstract: Fluidic devices that include bubble traps are provided. A substrate for a fluidic device includes a first channel to carry a fluid; a chamber, coupled to the first channel, to receive the fluid from the first channel, the chamber having a top and a bottom; a second channel, coupled to the chamber, to receive the fluid from the chamber; and a plurality of barriers adjacent to the top of the chamber. The plurality of barriers inhibit bubbles in the fluid from entering the second channel. Methods for manufacturing and using fluidic devices that include bubble traps are also provided.

Abstract: Methods of scheduling maintenance on a plurality of automated testing apparatus and possibly also on ancillary test processing apparatus. The methods include inputting identification data on the plurality of automated testing apparatus to be maintained, inputting maintenance requirement data for the maintenance of each of the apparatus, inputting demand constraint data, operating on the identification data, maintenance requirement data, and demand constraint data using an optimization program, such as mixed integer linear programming (MILP), subject to demand constraints and at least one objective, and outputting an optimized maintenance schedule for a planning period. Systems and apparatus configured to carry out the methods are provided, as are other aspects.