Abstract: An injection device is disclosed comprising a plunger for expressing medicament from a syringe and a delivery mechanism arranged in use to provide a forward biasing force to urge the plunger from a first rearward position to a second forward position to express a dose from the syringe. A latch arrangement is provided that releasably holds the plunger against the force of the delivery mechanism. The latch arrangement comprising at least two resilient segments which define opposing sections of an aperture within which a rearward end of the plunger is retained in the rearward position. A trigger is provided for releasing the plunger in use, the trigger being arranged to outwardly deflect at least one of the resilient segments such that the aperture is expanded to release the rearward end of the plunger. A method of manufacturing the injection device is also enclosed.

Abstract: The present inventive concept relates to a microfluidic arrangement (1) for capillary driven fluidic connection between capillary flow channels (8, 16).

Abstract: Embodiments of the present invention provide a method of analyzing a response of an analyte test device, comprising recording, by a device reading device, an image of coded test information associated with the test device, determining, based directly on the image of the test information, one or more test parameters, recording, by the reading device, an image of one or more optically responsive portions of the test device, and determining the response of the test device based on the one or more test parameters and the image of the one or more optically responsive portions of the test device.

Abstract: Embodiments of the present invention provide a method of analysing a response of an analyte test device, comprising recording, by a device reading device, an image of coded test information associated with the test device, determining, based directly on the image of the test information, one or more test parameters, recording, by the reading device, an image of one or more optically responsive portions of the test device, and determining the response of the test device based on the one or more test parameters and the image of the one or more optically responsive portions of the test device.

Abstract: An adapter for an analyte measuring device for measuring the amount of analyte in a test sample, typically a biological fluid, the device comprising a meter (14) and a test strip (10), the adapter (12) comprising a meter interface (20) for connecting to a meter designed for use with a test strip of one design, and a test strip interface (22) for connecting to a test strip of a different design, and means for adapting the output(s) from the test strip of different design for use by the test meter and/or an output(s) from the test meter for use by the test strip of different design.

Abstract: In accordance with the present invention a measuring device compares the current generated by two working sensor active areas and gives an error indication if they are too dissimilar, i.e., the current at one sensor active area differs too greatly from what would be expected from considering the current at the other. Not only can this method detect when one of the sensor parts has not been properly covered with sample liquid, but it can also detect if there is a manufacturing defect in either sensor part or if either has been damaged after manufacture, since even with complete coverage of the working sensor parts, an anomalous current will be generated at the affected sensor part under such circumstances.

Abstract: An improved disposable glucose test strip for use in a test meter of the type which receives a disposable test strip and a sample of blood from a patient and performs an electrochemical analysis is made using a non-conductive integrated reagent/blood separation layer containing a filler, an enzyme effective to oxidize glucose, e.g., glucose oxidase, and a mediator effective to transfer electrons from the enzyme. The integrated layer formulation is printed over a conductive carbon element to form a working electrode. The filler, for example a silica filler, is selected to have a balance of hydrophobicity and hydrophilicty such that one drying it forms a two-dimensional network on the surface of the conductive element. The response of this test strip is essentially temperature independent over relevant temperature ranges and is substantially insensitive to the hematocrit of the patient.

Abstract: The present invention is directed to an electrochemical sensor or electrochemical strip which includes a substrate, a first working electrode disposed on the substrate, a second working electrode disposed on the substrate, a reference electrode, an active reagent layer disposed on the first working electrode, wherein the active reagent layer completely covers the first working electrode and an inactive reagent layer disposed on the second working electrode, wherein the inactive reagent completely covers the second working electrode.

Abstract: This invention describes an electrochemical sensor which is adapted to reduce the effects of interfering compounds in bodily fluids when measuring an analyte in such fluids using an electrochemical strip. The sensor includes a substrate, a first and second working electrodes, and a reference electrode. A reagent layer is disposed on the electrodes such that, in one embodiment it completely covers all of the first working electrode, but only partially covers the second working electrode and, in a second embodiment, it only covers a portion of the first and the second working electrode. The portion of the working electrodes not covered by the reagent layer and is used to correct for the interference effect on the analyte measurement.

Abstract: This invention describes a method of reducing the effect of interfering compounds in a bodily fluid when measuring an analyte using an electrochemical sensor. In particular, the present method is applicable to electrochemical sensors where the sensor includes a substrate, first and second working electrodes, and a reference electrode and either the first and second or only the second working electrode include regions which are bare of reagent. In this invention, an algorithm is described with mathematically corrects for the interference effect using the test strip embodiments of the present invention.

Abstract: The present invention is directed to an improved meter that utilizes a method of reducing the effects of interfering compounds in the measurement of analytes and more particularly to a method of reducing the effects of interfering compounds in a system wherein the test strip utilizes two or more working electrodes. In one embodiment of the present invention, a meter is described which applies a first potential to a first working electrode and a second potential, having the same polarity but a greater magnitude than the first potential, is applied to a second working electrode. The meter then measures the generated current and utilizes a predetermined algorithm to correct the measured current to compensate for the presence of interfering compounds in the sample.