Abstract: The present invention provides a method for detecting an analyte in a sample and a device for carrying out the method. The method comprises the following steps. (i) Providing a mixture comprising a sample, a reporter reagent, and a pre-activator reagent to a device, the device comprising a substrate having an optical component and a binding component, where the optical component and the binding component are attached to a surface of the substrate, the reporter reagent being capable of generating reactive oxygen species from the pre-activator reagent upon absorption of electromagnetic radiation, and the optical component being capable of changing from a first optical state to a second optical state on reaction with the reactive oxygen species. (ii) Allowing a portion of the reporter reagent to bind to the surface of the substrate in proportion to the concentration of the analyte, by means of the binding component.

Abstract: The present invention provides a method for detecting an analyte in a sample, the method comprising the steps of: a method for detecting an analyte in a sample, the method comprising the steps of: (i) providing a mixture comprising a sample and a reporter reagent to a device, the device comprising a substrate having an optical component and a binding component attached to a surface of the substrate; (ii) allowing a proportion of the reporter reagent to bind to the surface of the substrate in proportion to the concentration of the analyte, by means of the binding component; (ill) irradiating the device with electromagnetic radiation for absorption by a photosensitiser of the reporter reagent, such that the photosensitiser of the bound reporter reagent portion interacts with the optical component to cause the optical component to change from a first optical state to a second optical state, thereby forming a set of local regions of the optical component having the second optical state on the substrate; and (iv)

Abstract: This invention provides a method for detecting an analyte in a sample using electromagnetic radiation comprising: (i) providing a labelled reagent, the labelled reagent having a binding site which is capable of binding the analyte or an analogue of the analyte and a label, wherein the label is capable of absorbing the electromagnetic radiation to generate energy by non-radiative decay; (ii) providing a device having a radiation source adapted to generate a series of pulses of electromagnetic radiation, a transducer having a pyroelectric or piezoelectric element and electrodes, which is capable of transducing energy generated by non-radiative decay into an electrical signal, a detector which is capable of detecting the electrical signal, a controller for controlling the source of electromagnetic radiation and the detector, wherein the device has a first and second chamber, the first chamber containing a first reagent proximal to the transducer, wherein the first reagent is capable of binding to the analyte suc

Abstract: A device for detecting an analyte in a sample, which includes a radiation source adapted to generate electromagnetic radiation; a transducer capable of transducing a change in energy to an electrical signal; at least one tethered reagent on or proximal to the transducer, the tethered reagent having a binding site which is capable of binding the analyte; a chamber for holding the sample in fluid contact with transducer, wherein the chamber is adapted to contain the sample on inversion, partial inversion or agitation of the device; and a detector which is capable of detecting the electrical signal generated by the transducer.

Abstract: Disclosed herein is an analysis device for use with an external testing apparatus to detect the presence of an analyte in a test sample. The device comprises a transducer formed of a layer of pyroelectric or piezoelectric material sandwiched between first and second electrode layers, the transducer being arranged to produce an electrical voltage across the electrode layers in response to heating or straining of the pyroelectric or piezoelectric material layer. The device also comprises first and second stiffening elements for the transducer, the transducer being sandwiched between the stiffening elements. Each of the stiffening elements defines a planar surface for maintaining the transducer in a flat condition. Each of the stiffening elements exposes a portion of a respective electrode layer of the transducer for electrically connecting the transducer to the external text apparatus.

Abstract: The present invention relates to a method for detecting an analyte (10) in a sample, comprising the steps of: providing a transducer (3) having a pyroelectric or piezoelectric element and electrodes which is capable of transducing a change in energy to an electrical signal, a first reagent (9) immobilized on the transducer, the first reagent having a binding site which is capable of binding the analyte or a derivative of the analyte, exposing the sample to the transducer thereby allowing the analyte or a derivative of the analyte to bind to the first reagent to form a first reagent-analyte complex (13); introducing a second reagent (11), the second reagent having a binding site which is capable of selectively binding the first reagent-analyte complex, wherein the second reagent has a label (12) attached thereto which is capable of absorbing electromagnetic radiation to generate energy by non-radiative decay; irradiating the sample with electromagnetic radiation; transducing the energy generated into an electr

Abstract: This invention relates to a method for measuring coagulation in a sample of a blood product comprising: providing a transducer (3) having a pyroelectric or piezoelectric element and electrodes (4, 5) which is capable of transducing energy generated by non-radiative decay into an electrical signal; contacting the transducer with the sample; irradiating the sample with a series of pulses of electromagnetic radiation from a light source (6); and detecting with a detector (7) the electrical signal generated by the transducer 3; wherein the sample contains particles (2), such as red blood cells (2), which are capable of absorbing the electromagnetic radiation generated by the radiation source (6) to generate energy by non-radiative decay, such as heat or shock waves, and wherein the wavelength of the electromagnetic radiation is such that the absorption of the radiation by particles (2) generates energy by non-radiative decay. A device (1) is also provided.

Abstract: The present application relates to a sensor (1) for use in detecting an analyte comprising: a transducer (10) composed of a pyroelectric or piezoelectric polymer substrate e.g. PVDF (3) and a transparent electrode layer (4) on a surface of the substrate; a layer of parylene (12) on the transparent electrode layer; and a reagent (17) immobilised on the transducer, the reagent having a binding site which is capable of binding the analyte or a derivative of the analyte.

Abstract: This invention relates to a device (1) for detecting energy generated by non-radiative decay generated in a substance (2) on irradiation with electromagnetic radiation. The device (1) comprises a radiation source (6) adapted to generate a series of pulses of electromagnetic radiation, a transducer (3) having a pyroelectric or piezoelectric element and electrodes (4, 5) which is capable of transducing the energy generated by the substance (2) into an electrical signal, and a detector (7) which is capable of detecting the electrical signal generated by the transducer (3). The detector (7) is adapted to determine the time delay between each pulse of electromagnetic radiation from the radiation source (6) and the generation of the electric signal. The device (1) has a wide applicability in the fields of assays and monitoring.

Abstract: A device for detecting an analyte in a sample, which includes a radiation source adapted to generate electromagnetic radiation; a transducer capable of transducing a change in energy to an electrical signal; at least one tethered reagent on or proximal to the transducer, the tethered reagent having a binding site which is capable of binding the analyte; a chamber for holding the sample in fluid contact with transducer, wherein the chamber is adapted to contain the sample on inversion, partial inversion or agitation of the device; and a detector which is capable of detecting the electrical signal generated by the transducer.

Abstract: This invention relates to a method for detecting an analyte in a sample, comprising the steps of exposing the sample to a transducer which is capable of transducing a change in energy to an electrical signal, the transducer having at least one tethered reagent on or proximal thereto, the at least one tethered reagent having a binding site which is capable of binding the analyte; introducing a labelled reagent into the sample, wherein the labelled reagent contains a binding site for the analyte or the tethered reagent and a label which is capable of absorbing electromagneticradiation generated by a radiation source to generate energy; allowing the labelled reagent to bind to the analyte or tethered reagent in a first period in which the transducer is oriented such that the labelled reagent is caused to settle, at least in part, on the transducer; subsequently, in a second period, causing the labelled reagent to become unsettled; irradiating the sample with electromagnetic radiation during the first and second

Abstract: The present invention relates to a method for detecting an analyte (10) in a sample, comprising the steps of: providing a transducer comprising a pyroelectric or piezoelectric element and electrodes which is capable of transducing a change in energy to an electrical signal, a first reagent immobilised on the transducer, and a second reagent (11) releasably bound to the first reagent and having a label attached thereto which is capable of absorbing electromagnetic radiation to generate energy by non-radiative decay, wherein either the first or second reagent has a binding site which allows binding to the other and which is capable of preferentially binding to the analyte or a derivative of the analyte; exposing the transducer to the sample thereby allowing the analyte or a derivative of the analyte to bind to the binding site and displace the second reagent; irradiating the sample with electromagnetic radiation; transducing the energy generated into an electrical signal; and detecting the electrical signal.

Abstract: This invention relates to a method for detecting an analyte in a sample. The method comprises the steps of exposing the sample to a transducer having a pyroelectric or piezoelectric element and electrodes which is capable of transducing a change in energy to an electrical signal, the transducer having at least one reagent proximal thereto, the reagent having a binding site which is capable of binding the analyte or a complex or derivative of the analyte, wherein at least one of the analyte or the complex or derivative of the analyte has a label attached thereto which is capable of absorbing the electromagnetic radiation generated by the radiation source to generate energy by non-radiative decay; irradiating the reagent with a series of pulses of electromagnetic radiation, transducing the energy generated into an electrical signal, detecting the electrical signal and the time delay between each pulse of electromagnetic radiation from the radiation source and the generation of the electric signal.

Abstract: Disclosed herein is a sample collection device for an aqueous fluid, such as whole blood, serum, plasma and urine. The device comprises a cartridge body defining an elongate sample collection passage that has open ends. The passage is arranged to draw the fluid into the passage by capillary action. The passage is provided along a portion of its length with a sample metering stop in the form of a hydrophobic coating arranged to prevent flow of the fluid by capillary action thereacross. A sample receiving portion of the passage extending between a collection end and the metering stop is non-linear, and preferably defines a pair of straight limbs connected by a bend. By providing a non-linear passage in this way, the maximum gravitational force which can act on the collected sample is reduced as compared to a conventional linear passage, thereby reducing the tendency of the sample to leak from the device and potentially avoiding the need for one or both ends of the passage to be sealed.

Abstract: Disclosed herein is an analysis device for use with an external testing apparatus to detect the presence of an analyte in a test sample. The device comprises a transducer formed of a layer of pyroelectric or piezoelectric material sandwiched between first and second electrode layers, the transducer being arranged to produce an electrical voltage across the electrode layers in response to heating or straining of the pyroelectric or piezoelectric material layer. The device also comprises first and second stiffening elements for the transducer, the transducer being sandwiched between the stiffening elements. Each of the stiffening elements defines a planar surface for maintaining the transducer in a flat condition. Each of the stiffening elements exposes a portion of a respective electrode layer of the transducer for electrically connecting the transducer to the external text apparatus.

Abstract: This invention relates to a chemical sensing device for detecting an analyte. The device comprises a light source, at least one luminescent reagent which is capable of luminescing when irradiated by the light source wherein the luminescence of the luminescent reagent is modifiable by the analyte thereby changing the generation of heat, which change in heat generation is proportional to the concentration of the analyte, a transducer having a pyroelectric or piezoelectric element and electrodes which is capable of transducing the change in heat to an electrical signal, and a detector which is capable of converting the electrical signal into an indication of the concentration of the analyte. The invention also relates to a method for detecting an analyte.

Abstract: The present application relates to a chemical sensing device for detecting an analyte in a liquid sample containing suspended particles. The device comprises a radiation source adapted to generate electromagnetic radiation, a transducer (3) having a pyroelectric or piezoelectric element and electrodes which is capable of transducing a change in energy to an electrical signal, at least one reagent (2) on or proximal to the transducer (3), the reagent being capable of absorbing the electromagnetic radiation to generate energy when in contact with the analyte, a chamber (9) for holding the sample in fluid contact with transducer, and a detector which is capable of detecting the electrical signal generated by the transducer. The transducer is in a plane from +45° to ?45° to the vertical.

Abstract: This invention relates to a chemical sensing device for detecting an analyte. The device comprises a light source; at least one luminescent reagent which is capable of luminescing when irradiated by the light source wherein the luminescence of the luminescent reagent is modifiable by the analyte thereby changing the generation of heat, which change in heat generation is proportional to the concentration of the analyte, a transducer having a pyroelectric or piezoelectric element and electrodes which is capable of transducing the change in heat to an electrical signal, and a detector which is capable of converting the electrical signal into an indication of the concentration of the analyte. The invention also relates to a method for detecting an analyte.

Abstract: The present application relates to a sensor (1) for use in detecting an analyte comprising: a transducer (10) composed of a pyroelectric or piezoelectric polymer substrate e.g. PVDF (3) and a transparent electrode layer (4) on a surface of the substrate; a layer of parylene (12) on the transparent electrode layer; and a reagent (17) immobilised on the transducer, the reagent having a binding site which is capable of binding the analyte or a derivative of the analyte.

Abstract: The present invention relates to a method for detecting an analyte (10) in a sample, comprising the steps of: (i) providing a transducer (3) comprising a pyroelectric or piezoelectric element and electrodes which is capable of transducing a change in energy to an electrical signal, and a first reagent (9) immobilised on the transducer, wherein the first reagent has a binding site which is capable of binding to a second reagent (11) in the presence of the analyte or a derivative of the analyte; (ii) introducing the second reagent, the second reagent having a binding site which is capable of binding the first reagent in the presence of the analyte or derivative thereof and having a label (12) attached thereto which is capable of absorbing electromagnetic radiation to generate energy by non-radiative decay, wherein either the first or the second reagent is capable of binding to the analyte or derivative thereof; (iii) exposing the sample to the transducer thereby allowing the analyte or derivative thereof to bin