Abstract: A lancing device includes: a cover section, a part of which is provided with an opening; a main body held on the cover section and configured to be movable in a predetermined direction from the opening relative to the cover section; a lancing unit which is launched in the predetermined direction; and an operating section configured to launch the lancing unit when the operating section is pushed by applying a force in the predetermined direction, wherein the lancing unit is launched when the force is applied to the operating section in the predetermined direction with regulating a movement of the main body in the predetermined direction, and the main body moves, instead of pushing the operating section, by applying the force in the predetermined direction without regulating the movement of the main body in the predetermined direction is disclosed.

Abstract: A interstitial fluid collection kit for collecting interstitial fluid extracted via micropores formed in a skin is disclosed. The kit includes a marker sheet that has an adhesive face and that defines a region in which micropores are to be formed; a transparent retention sheet having an adhesive face; and a collecting body that is retained by a part of the adhesive face of the retention sheet and that collects interstitial fluid extracted from the skin.

Abstract: A lancing device comprising: a cover section, a part of which is provided with an opening; a main body held on the cover section and configured to be movable in a predetermined direction from the opening relative to the cover section; a lancing unit which is launched in the predetermined direction; and an operating section configured to launch the lancing unit when the operating section is pushed by applying a force in the predetermined direction, wherein the lancing unit is launched when the force is applied to the operating section in the predetermined direction with regulating a movement of the main body in the predetermined direction, and the main body moves, instead of pushing the operating section, by applying the force in the predetermined direction without regulating the movement of the main body in the predetermined direction is disclosed.

Abstract: According to an embodiment, a control system has: a logic module substrate that has a logic FPGA on which logic is mounted, a transmission module that transmits an output logic state signal, which is logic state signal representing an interim logic state of a process by the logic FPGA of deriving a logic output signal from the logic input signals, and a logic monitoring device that displays to monitor the logic state signal transmitted from the transmission module. The logic module substrate includes an event detection unit that detects a change in the logic state signal. Only when a change in the logic state signals is detected by the event detection unit, the logic output state signal being transmitted to the transmission module.

Abstract: According to an embodiment, a control system has: a logic module substrate that has a logic FPGA on which logic is mounted, a transmission module that transmits an output logic state signal, which is logic state signal representing an interim logic state of a process by the logic FPGA of deriving a logic output signal from the logic input signals, and a logic monitoring device that displays to monitor the logic state signal transmitted from the transmission module. The logic module substrate includes an event detection unit that detects a change in the logic state signal. Only when a change in the logic state signals is detected by the event detection unit, the logic output state signal being transmitted to the transmission module.

Abstract: A living body component analyzing method that can accurately analyze a measurement target component even when the subject perspires is provided. A living body component analyzing method for analyzing a component contained in a tissue fluid extracted from the skin of a subject includes: a step of subjecting part of the skin of the subject to a process of facilitating extraction of the tissue fluid; a step of collecting a measurement target component from the skin subjected to the facilitation process; a step of collecting a first auxiliary component from the skin subjected to the facilitation process; a step of collecting a second auxiliary component contained in perspiration from the skin excluding the part subjected to the facilitation process; and a step of analyzing the measurement target component based on the collected measurement target component, the first auxiliary component and the second auxiliary component.

Abstract: An apparatus for analyzing a biological component in a test sample, comprising: a mounting part for selectively mounting a calibration cartridge and an analysis cartridge; a detection part for detecting a component included in a control sample accommodated in the calibration cartridge, the component included in the test sample accommodated in the analysis cartridge, and a biological component included in the analysis cartridge; and an analyzing part for analyzing the biological component included in the test sample based on a detection result of the component included in the control sample, a detection result of the component included in the test sample, and a detection result of the biological component included in the test sample detected by the detection part. A cardridge is also disclosed.

Abstract: A interstitial fluid collection kit for collecting interstitial fluid extracted via micropores formed in a skin is disclosed. The kit includes a marker sheet that has an adhesive face and that defines a region in which micropores are to be formed; a transparent retention sheet having an adhesive face; and a collecting body that is retained by a part of the adhesive face of the retention sheet and that collects interstitial fluid extracted from the skin.

Abstract: This method of analyzing a biological component includes steps of arranging an extraction medium holding device on the skin of a subject, extracting an extract from the subject, attaching a reaction cartridge configured to be detachable on an extraction medium holding part of the extraction medium holding device and to be capable of transferring an extraction medium to a reaction part to the extraction medium holding part of the extraction medium holding device arranged on the skin, and transferring the extraction medium held in the extraction medium holding part to the reaction part.

Abstract: A method for analyzing an analyte in tissue fluid is disclosed. The method comprises: placing a collecting member in contact with the skin of a subject, wherein the collecting member is configured to collect and retain tissue fluid containing the analyte from the subject; collecting tissue fluid from the subject into the collecting member; detaching the collecting member from the skin of the subject; causing the analyte in the tissue fluid collected by the collecting member to diffuse in a liquid by supplying the collecting member with the liquid; and detecting the analyte diffused in the liquid. An analyzer for analyzing an analyte in tissue fluid, and cartridge and kit for use in the analyzing method are also disclosed.

Abstract: A puncture device which punctures a skin of a subject for extracting a tissue fluid from a puncture site of the subject. The puncture device included a timer; a notifying section which notifies a user that specific time measured by the time has passed; a puncture mechanism which punctuates the skin; and an interlock mechanism which caused the timer to start time measurement in conjunction with a punctuate action by the puncture mechanism.

Abstract: A system for measuring components in a living body comprising: a micropore forming device for forming micropore on the skin, a guide member mounted on one end of the micropore forming device, a marking member for indicating a position on the skin on which micropores are formed, a collecting member for collecting tissue fluid from the skin via micropores, and a measuring apparatus for measuring components in a living body contained in the tissue fluid collected by the collecting member, is disclosed. A kit for micropore forming device and a marking member are also disclosed.

Abstract: An in vivo component measurement method comprises steps of: extracting a tissue fluid from a biological body into an extraction medium and accumulating an objective component and an inorganic ion in the extracted tissue fluid; acquiring ion information on a quantity of the accumulated inorganic ion; acquiring a component information on a quantity of the accumulated objective component; and acquiring an analysis value on the quantity of the objective component based on the ion information and the component information.

Abstract: An analyzer (a blood glucose meter), which shows minor measurement errors even in the case of conducting the extraction and detection of an analyte in parallel, can be obtained. This blood glucose meter (100) comprises a sensor unit (26) having a measurement face (26a) to which glucose extracted from a subject is supplied, a light-receiving element (34) outputting a signal based on the glucose supplied to the measurement face, a sensor contact face (23a) to be in contact with the measurement face and a skin contact face (23b) to be in contact with the skin of the subject, as well as a mesh sheet (23) for supplying the glucose from the skin contact face to the measurement face. The mesh sheet is designed so that the distance between the measurement face and the skin is maintained substantially at a constant level during the contact with the skin.

Abstract: The present invention is to present an analyzer for analyzing a concentration of a predetermined component contained in tissue fluid of a subject, the analyzer being capable of mitigating the pain of the subject. The analyzer comprises: an extraction medium retainer for retaining an extraction medium for holding tissue fluid extracted through a skin of a subject; a component amount information obtainer for obtaining component amount information regarding amount of a predetermined component contained in the tissue fluid held in the extraction medium; an electrical information obtainer for obtaining electrical information related to amount of the extracted tissue fluid by supplying electrical power to the extraction medium which is holding the extracted tissue fluid; and a component concentration obtainer for obtaining a concentration of the predetermined component contained in body fluid of the subject based on the component amount information and the electrical information.

Abstract: An analyte extracting cartridge set is described that includes: an analyte extracting cartridge to be loaded to an analyzing apparatus for extracting an analyte from a subject to be examined and analyzing the analyte, the analyte extracting cartridge having a liquid retaining member for retaining a liquid to hold the analyte extracted from the subject; and a liquid distributor member for retaining the liquid and distributing a predetermined amount of the liquid to the liquid retaining member. A method for extracting an analyte from a subject to be examined and analyzing the analyte with the use of the analyte extracting cartridge is also described.

Abstract: An analyzer including an electrical information acquiring section for acquiring an electrical information by supplying an electricity to a skin of a subject; and a controller for acquiring a component value relating to an amount of a predetermined component included in a tissue fluid extracted via the skin of the subject and converting the component value into a concentration of the predetermined component included in the tissue fluid in a body of the subject based on the electrical information acquired by the electrical information acquiring section is disclosed. An analyzing method and a blood-sugar level measuring device are also disclosed.

Abstract: On a printed circuit board, there are mounted a pair of first leads, a first semiconductor device mounted on each of the first leads, a pair of second leads, and a second semiconductor device mounted on each of the second leads. A semiconductor device connecting terminal portion of each of the first leads extends to an outer side from the first semiconductor device, and one end of an intermediate slope portion of each of the first leads is bent to an inner side, whereby a substrate connecting terminal portion is structured. Accordingly, since an entire length of each of the first leads is elongated, a stress is absorbed dispersedly, and a tape carrier package is made compact.