Abstract: Disclosed is a measurement apparatus including: a support mechanism configured to support a cartridge in which a chamber is formed, the chamber being configured to store a measurement sample that generates light an intensity of which varies depending on an amount of a test substance; a photodetector configured to detect the light generated from the measurement sample stored in the chamber; and a reflection member provided between the photodetector and the cartridge supported by the support mechanism, the reflection member having an inner face, the reflection member being configured to reflect, at the inner face, the light generated from the measurement sample stored in the chamber, and guide the light to the photodetector, wherein the reflection member is configured to have an area surrounded by the inner face, the area decreasing from a side where the cartridge supported by the support mechanism is provided toward a side where the photodetector is provided.

Abstract: A sample measuring method of optically measuring a sample housed in a container in a sample measurement device, the method including: loading the container such that the container is shielded from light; starting to read information regarding a measurement to be performed on the sample in response to the loading the container; and measuring the sample based on the read information.

Abstract: The present invention provides a cartridge, a detection method, and a detection device capable of stabilizing the liquid level of a sample accommodated in a chamber in a predetermined state. A cartridge 20, that is rotated around a rotating shaft 42 for detecting a target substance, is provided with a chamber 100 in which a sample containing a target substance is stored. The chamber 100 includes a first region 110 in which a sample is stored, a second region 120 disposed at a position closer to the rotating shaft 42 than the first region 110, and a protrusion 130 protruding from a position between the first region 110 and the second region 120 to the inner side of the chamber 100.

Abstract: Disclosed is a liquid sealed cartridge in which a liquid injected through an inlet is previously sealed, and the liquid is transferred by a centrifugal force being applied by rotation, and the liquid sealed cartridge includes: a liquid storage portion configured to store the liquid; a bypass flow path having one end and the other end connected to the liquid storage portion, the bypass flow path having the inlet; and a transfer flow path into which the liquid is transferred from the liquid storage portion when the centrifugal force is applied.

Abstract: A measuring cartridge and a liquid transporting method capable of improving measurement accuracy of plasma components by suppressing contamination of blood cell components when transferring plasma components separated by centrifugation are provided. The measuring cartridge 10 includes a first storage part 31 and a second storage part 32 which is disposed in a direction away from the rotating shaft 20 with respect to the first storage part 31 and has a width in the rotation direction around the rotating shaft 20 larger than that of the first storage part 31; a separation chamber 30 for separating the blood sample into a blood cell component and a plasma component by utilizing centrifugal force caused by rotation around the rotating shaft 20, a flow path connected to an inner wall of at least one of the first storage part 31 or second storage part 32.

Abstract: This liquid-sealed cartridge includes: a cartridge body including a plurality of liquid storage portions; a seal body configured to seal an opening of each of the plurality of liquid storage portions; and an elastic body disposed so as to be opposed to the plurality of liquid storage portions, the elastic body being configured to form a passage adjacent to the plurality of liquid storage portions. Each of the plurality of liquid storage portions and the passage are configured to be communicated with each other by the corresponding seal body being pushed to be opened through the elastic body.

Abstract: Disclosed is a liquid-sealed cartridge in which a liquid is transferred by a centrifugal force generated when the liquid-sealed cartridge is rotated around a rotation shaft, including: a liquid storage portion configured to store the liquid therein; a seal having an outer peripheral portion connected to the liquid storage portion, the seal being configured to seal the liquid storage portion; a flow path connected to the liquid storage portion via the seal, through which the liquid in the liquid storage portion is transferred by the centrifugal force in a direction away from the rotation shaft, wherein, when the seal receives a pressing force, the seal is inclined in a pressing direction, with one portion of the outer peripheral portion thereof remaining connected with the liquid storage portion, and the other portion of the outer peripheral portion being separated from the liquid storage portion.

Abstract: Disclosed is a cartridge for sample analysis, including a cartridge base body having, formed therein, a chamber configured to store a liquid containing a test substance, and a storage portion which is connectable with the chamber and is configured to store a liquid reagent to be supplied to the chamber, carrier particles immobilized onto an inner wall of the chamber, a first liquid reagent stored in the storage portion, and a first capture substance that specifically binds to the test substance. The carrier particles are immobilized onto the inner wall by means of a solid mixture containing sugar and protein.

Abstract: Disclosed is a chemiluminescence measurement apparatus that includes: a support member configured to support a cartridge for measuring a test substance contained in a specimen by chemiluminescence measurement; a motor configured to rotate the support member so as to rotate the cartridge such that a process required for the chemiluminescence measurement proceeds in the cartridge; and a light receiver configured to receive light generated by chemiluminescence in the cartridge that is supported by the support member rotated by the motor. The cartridge supported by the support member and a light receiving surface of the light receiver are disposed inside a dark space surrounded by a light-shielding portion, and the motor is disposed outside the dark space.

Abstract: Disclosed is a detection apparatus that transfers magnetic particles through a plurality of chambers in a cartridge which includes the plurality of chambers and a channel connecting between the plurality of chambers, and that causes the magnetic particles to carry a complex of a test substance and a labelling substance, to detect the test substance on the basis of the labelling substance in the complex. The detection apparatus includes: a rotation mechanism configured to rotate the cartridge about a rotation shaft; a magnet configured to collect the magnetic particles in the chambers; a movement mechanism configured to move the magnet in a direction different from a circumferential direction of a circle in which the rotation shaft is centered; a detector configured to detect the test substance; and a controller programmed to control the rotation mechanism and the movement mechanism so as to transfer the magnetic particles from one of the chambers to another one of the chambers.

Abstract: Disclosed is a measurement apparatus including: a support mechanism configured to support a cartridge in which a chamber is formed, the chamber being configured to store a measurement sample that generates light an intensity of which varies depending on an amount of a test substance; a photodetector configured to detect the light generated from the measurement sample stored in the chamber; and a reflection member provided between the photodetector and the cartridge supported by the support mechanism, the reflection member having an inner face, the reflection member being configured to reflect, at the inner face, the light generated from the measurement sample stored in the chamber, and guide the light to the photodetector, wherein the reflection member is configured to have an area surrounded by the inner face, the area decreasing from a side where the cartridge supported by the support mechanism is provided toward a side where the photodetector is provided.

Abstract: A sample analyzing method for suppressing an adverse effect on detection accuracy of a detection target substance is disclosed. In the sample analyzing method, a magnetic particle as a support of a detection target substance is transported by magnetic force to a second liquid container through a passage between a first liquid container storing a first liquid containing the magnetic particle and the second liquid container storing a second liquid containing a labeled substance to forma complex with the detection target substance and the magnetic particle. The complex formed in the second liquid container and containing the detection target substance, magnetic particle, and labeled substance is transported to a third liquid in a flow path, and the magnetic particle is transported to a detection tank for detecting the detection target substance, while being agitated in a mixed liquid of the complex and third liquid within the flow path.

Abstract: An analysis device for performing analysis about a substance by using an analysis chip having therein a reaction area that reacts with the substance is provided. The analysis device includes: a control section in contact with the analysis chip; a first sensor for measuring an ambient temperature of the analysis chip; a second sensor for measuring the temperature at a contact area of the control section in contact with the analysis chip, and a control circuit for performing feedback control of the control section by finding a temperature of the contact area for achieving a desired temperature of the reaction area based on the ambient temperature measured by the first sensor and a temperature gradient between a position at which the ambient temperature is measured and the reaction area, setting the found temperature as a target value and setting the temperature detected by the second sensor as an output value.

Abstract: A sample analyzing method for suppressing an adverse effect on detection accuracy of a detection target substance is disclosed. In the sample analyzing method, a magnetic particle as a support of a detection target substance is transported by magnetic force to a second liquid container through a passage between a first liquid container storing a first liquid containing the magnetic particle and the second liquid container storing a second liquid containing a labeled substance to forma complex with the detection target substance and the magnetic particle. The complex formed in the second liquid container and containing the detection target substance, magnetic particle, and labeled substance is transported to a third liquid in a flow path, and the magnetic particle is transported to a detection tank for detecting the detection target substance, while being agitated in a mixed liquid of the complex and third liquid within the flow path.

Abstract: In a method of detecting a test substance, a test substance is detected using a sample analysis cartridge supplied with a sample. The sample analysis cartridge includes: a passage part having a gas-phase space; and liquid containers communicating with the passage part through openings. The liquid containers include: a first liquid container containing a first liquid containing magnetic particles; and a second liquid container containing a second liquid containing a labeled substance 42. The magnetic particles are sequentially transported to the liquid containers through the gas-phase space in the passage part. Thus, the magnetic particles carry a complex of the test substance and the labeled substance. The test substance is detected based on the labeled substance in the complex.

Abstract: Expedient and sensitive detection of a detection target substance is enabled in target substance detection that detects the detection target substance at a sensor portion provided within a flow channel. A detection target substance detecting method for a detecting detection target substance which may be contained in a liquid sample emits ultrasonic waves that propagate in a direction transverse to a flow channel when the liquid sample flows within a ultrasonic wave emission region at which ultrasonic waves can be emitted, to concentrate the detection target substance at a wall surface of the flow channel toward the side of the sensor portion and to detect the detection target substance.

Abstract: In a detection method for detecting the quantity of a target material, a labeled binding material in the amount corresponding to the quantity of the target material contained in a liquid specimen is bonded to the top of a sensor portion; and a signal based on light emitted from a label in an evanescent field or an enhanced optical field produced on a surface of the sensor portion when the sensor portion is irradiated with excitation light is detected. After the labeled binding material is bonded to the immobilization layer, the signal is detected while the fluid over the sensor portion is controlled to flow at a constant flow rate at which bonds between the labeled binding material and the immobilization layer are not broken and the above signal can be detected with a greater magnitude than when the liquid specimen exists over the sensor portion at rest.

Abstract: A dew condensation detection device includes: a light emitting unit for emitting a light flux that travels along a dew condensation detection surface of a member having the dew condensation detection surface; a changing unit for changing a diameter of the light flux; and an optical detector for receiving the light flux that has passed along the dew condensation detection surface.

Abstract: An analysis device for performing analysis about a substance by using an analysis chip having therein a reaction area that reacts with the substance is provided. The analysis device includes: a control section in contact with the analysis chip; a first sensor for measuring an ambient temperature of the analysis chip; a second sensor for measuring the temperature at a contact area of the control section in contact with the analysis chip, and a control circuit for performing feedback control of the control section by finding a temperature of the contact area for achieving a desired temperature of the reaction area based on the ambient temperature measured by the first sensor and a temperature gradient between a position at which the ambient temperature is measured and the reaction area, setting the found temperature as a target value and setting the temperature detected by the second sensor as an output value.

Abstract: Detection of detection target substances at a sensor portion is expedited and the efficiency thereof is improved in biological substance analysis, to enable accelerated analysis with high sensitivity. A biological substance analyzing cell equipped with a reaction chamber having a sample supply space, an acoustic matching layer which is provided at a predetermined region of an inner wall of the reaction chamber that faces another inner wall, and a sensor portion provided within the reaction chamber is employed. Ultrasonic waves are emitted such that a standing wave are generated between the acoustic matching layer and the inner wall of the reaction chamber that faces the acoustic matching layer. The detection target substance is concentrated by the capturing forces of the standing waves, and the concentrated detection target substance is detected at the sensor portion.