A diagnostic device 10 for screening for a target analyte in a sample is provided. The diagnostic device 10 comprises a substrate 12 and a hydrophobic material 20 disposed on the substrate. The hydrophobic material 20 is selected to be converted from the hydrophobic material 20 to a hydrophilic material 22 upon contact with a conversion component within or derived from a sample introduced to the device 10.

The present invention relates to compositions comprising a polymeric matrix or a gel containing functional enzymes capable of re-creating under culture conditions the cell microenvironment existing in vivo. The present invention also relates to devices for cell cultures comprising such compositions, in particular hydrogel and the use thereof to control the chemical microenvironment of a cell culture or mimic physiological or pathological conditions of the in vivo cells. The compositions and the devices described herein could be also used in vitro for evaluating the therapeutic effect of a compound on a determined cell line or on primary cells.

Enzyme compositions including lactate responsive enzyme and stabilizing agent, including electrodes, sensors, and systems having the same. The stabilizing agent stabilizes the lactate responsive enzyme in a manner sufficient to increase sensitivity to lactate, such as for use in in vivo detection of lactate. In some compositions the lactate responsive enzyme is lactate oxidase and the sensor includes a heterocycle-containing polymer and a crosslinker.

The disclosure relates to textile biosensors and related systems that can be used for in situ health monitoring and disease detection. The biosensors include a flexible or textile substrate, a working electrode embroidered thereon, a reference electrode embroidered thereon, optionally a counter electrode embroidered thereon, and an enzyme probe bound to the working electrode. The biosensors can be integrated directly onto fabrics and garments to provide lightweight, unobtrusive wearable sensing systems that do not compromise wearer mobility, comfort or attention.

The present invention relates to compositions comprising a polymeric matrix or a gel containing functional enzymes capable of re-creating under culture conditions the cell microenvironment existing in vivo. The present invention also relates to devices for cell cultures comprising such compositions, in particular hydrogel and the use thereof to control the chemical microenvironment of a cell culture or mimic physiological or pathological conditions of the in vivo cells. The compositions and the devices described herein could be also used in vitro for evaluating the therapeutic effect of a compound on a determined cell line or on primary cells.

Embodiments of the present invention are directed to a semiconductor device. A non-limiting example of the semiconductor device includes a semiconductor substrate. The semiconductor device also includes a plurality of metal nanopillars formed on the substrate. The semiconductor device also includes an amperometric sensor associated with one of the plurality of nanopillars, wherein the amperometric sensor is selective to an enzyme-active neurotransmitter. The semiconductor device also includes a resistivity sensor associated with a pair of nanopillars, wherein the resistivity sensor is selective to an analyte.

A method of processing data from a test device is provided. The method comprises determining a concentration of a first analyte in a fluid sample using first sensing chemistry, wherein the first analyte is an acidosis-related analyte; determining a concentration of a second analyte in the fluid sample using second sensing chemistry, wherein the second analyte is glucose; displaying a first indication related to the determined concentration of the second analyte; if the determined concentration of the first analyte is equal to or greater than a first threshold, providing a user-selectable option to display a second indication related to the determined concentration of the first analyte.

Enzyme compositions including lactate responsive enzyme and stabilizing agent, including electrodes, sensors, and systems having the same. The stabilizing agent stabilizes the lactate responsive enzyme in a manner sufficient to increase sensitivity to lactate, such as for use in in vivo detection of lactate. In some compositions the lactate responsive enzyme is lactate oxidase and the sensor includes a heterocycle-containing polymer and a crosslinker.

Disclosed is a biochemical-immunological hybrid biosensor. The biochemical-immunological hybrid biosensor includes a reaction strip in the form of a porous membrane through which a sample moves by capillary action. The reaction strip can simultaneously measure heterogeneous multiple biomarkers through both a biochemical analysis and an immunoassay in an independent manner based on membrane chromatography to diagnose a particular disease.

Ocular antimicrobial compositions and methods and method of use thereof are provided. The compositions incorporate photoactive heterojunction materials can be incorporated into a suitable carrier, alone or in combination with an enzyme capable of generating ROS upon contact with the eye for the treatment of ocular conditions. The method includes contacting the eye of a subject in need thereof, the subject has or has been diagnosed with microbial keratitis, with an effective amount of the disclosed composition. The method further includes contacting the composition in the subject's eye with near infrared radiation (NIR).