A device (1) comprising an optical apparatus (2) for monitoring bacterial growth of a drug-dosed liquid biological sample. A sample container port for receiving a sample container (6), in use, is provided in the device, the sample container (6) having at least one detection chamber (20) for containing the drug-dosed sample. The optical apparatus (2) comprises a light source (22) configured to emit light along an incident beam axis that, in use, intersects with at least one detection chamber (20) of the sample container (6), and to illuminate the drug-dosed sample contained within the detection chamber (20). The optical apparatus (20) comprises a first photodetector (26) configured to receive light scattered by bacteria in the sample. The optical apparatus (2) comprises a light collection arrangement (24) configured to collect light exiting the detection chamber (20) that has been scattered in a forward direction by bacteria in the sample, in a range of scattering angles between about +/−4 and +/−20 degrees relative to the incident beam axis, and to direct the collected scattered light to the first photodetector (26); and prevent non-scattered light travelling parallel to the incident beam axis and exiting the detection chamber (20) from reaching the first photodetector (26). The optical apparatus (2) comprises at least one processor configured to: measure an intensity of the scattered light received by the first photodetector (26); determine a corresponding representative amount or concentration of bacteria present in the sample based on the intensity of the scattered light; repeat the measuring and determining steps at a series of pre-determined intervals to determine changes in the representative amount or concentration of bacteria present in the sample as a function of time; and determine a corresponding susceptibility of the bacteria in the sample to the respective drug.

A nucleic acid sequencing system may include a substrate coupled to a rotating disk. The substrate may include a plurality of nucleic acid samples. A detection system, including for example an objective and a camera, may detect sequencing events on the substrate while the substrate is rotated relative to the detection system around a rotational axis of the substrate, perpendicular to a surface of the substrate, by the actuation system.

An automatic analysis apparatus comprises: a light source generating light having a center wavelength equal to or shorter than 340 nm; a fluorescent substance excited by the light source light, and generates light together with transmitted light from the light source, having a wavelength of 340 nm to 800 nm; a condenser lens; at least one slit; a reaction cell holding a reaction solution where a specimen and reagent are mixed, and that the light source light and the light from the fluorescent substance enter; and a detector that detects light transmitted through the reaction cell. The light source, fluorescent substance, condenser lens, and slit are provided along a straight light corresponding to the optical axis. The width of the slit's opening is equal to or narrower than the width of a ray forming an image of the light source at the position of the slit.

An apparatus for analysing a liquid sample comprising particles, comprises: a first chamber (12) and a second chamber (14), and an optical path between the first chamber (12) and the second chamber (14), wherein: the first chamber (12) is a sample chamber comprising: a sample space for receiving the sample; a light input (24) for input of light into the first chamber (12) for interaction with the sample; and an exit aperture (26) arranged for scattered and/or reflected light to pass from the first chamber via the optical path to the second chamber (14); the second chamber (14) is a detection chamber comprising: an input aperture (28) for receiving light from the optical path; and a detector (25) for detecting, or a detector aperture for receiving, light to be detected; wherein the first chamber (12) and the second chamber (14) provide at least one light integrating volume, and wherein the first chamber (12) is configured such that in operation the liquid sample is present in the first chamber (12) and isolated from the second chamber (14).

The present disclosure provides an analyzer with a reduced adverse effect to photometry accompanying acceleration or deceleration of a cuvette table. An actuator drives a cuvette table where a plurality of cuvettes are disposed annularly so that the cuvette table performs intermittent rotation in which a resting state and a rotating state are repeatedly alternated, and each time the cuvette table rotates intermittently, a row of the plurality of cuvettes is displaced in the annular direction by a given number of cuvettes. In the resting state, a pretreatment part performs pretreatment to a cuvette that stands still at a pretreatment position, and a post treatment part performs post treatment to a cuvette that stands still at a post treatment position. In the rotating state, a photometry part performs photometry to a cuvette that passes through a photometric position. A controller, in the rotating state until the cuvette that stood still at the pretreatment position stands still at the post treatment position after the completion of the pretreatment, controls the actuator so that the cuvette passes through the photometric position at a fixed rotational speed, each time the cuvette passes through the photometric position.

A biological material measuring instrument is described. The biological material measuring instrument includes a rotating body and a main body. The rotating body includes one or more cartridge holders having cuvettes in which a reagent and an analyte in a sample react. The main body includes a pair of light-emitting parts and light-receiving parts to optically measure the analyte in the sample. The rotating body further includes a light-emitting optical waveguide for guiding the light of the light-emitting parts to the cuvette, and a light-receiving optical waveguide for guiding.

The present invention comprises: an ISE measurement unit 32 that measures the electrolyte concentration of a sample; a spectrophotometer 14 that measures biochemical parameters of a sample; a pH measurement mechanism 34 that measures the pH of a sample; sample dispensing mechanisms 21, 22 that dispense the sample for measurement in the ISE measurement unit 32 or the spectrophotometer 14 from a container that contains the sample; and a conveyance mechanism 27 that conveys the container. The conveyance mechanism 27, the sample dispensing mechanisms 21, 22, and the pH measurement mechanism 34 are disposed such that the dispensing of the sample by the pH measurement mechanism 34 for pH measurement, or pH measurement, is performed after the dispensing of the sample by the sample dispensing mechanisms 21, 22.

A fluorescence detection system, including apparatus and methods, suitable for qPCR and other fluorescence-based analyses. The system may comprise various components, including a stage, an illumination module, a detection module, and an optical relay structure. The stage may be configured to support a sample holder. The illumination module may include one or more discrete light sources configured to produce excitation light. The detection module may be configured to detect fluorescence emission light produced, in response to the excitation light, by a fluorescent sample positioned in the sample holder. The optical relay structure may include a beamsplitter assembly configured to direct the excitation light from the illumination module along an illumination path to the sample holder and to direct the fluorescence emission light from the sample holder along a response path to the imaging module. The system may enhance the quality of excitation light hitting samples in the sample holder.

A biological sample image collection device (100), comprising support (30) and an optical imaging assembly (50), also comprises: a plurality of movable platforms (40), for placing biological samples (20) wherein the plurality of movable platforms (40) are arranged on the support (30) in an array; the plurality of movable platforms (40) can move relative to the support (30); and forces acting on the support (30) during the movement of the movable platforms can cancel each other out, so as to avoid vibrations affecting the support (30) and the biological samples (20) are canceled. The optical imaging assembly (50) collects images of the biological samples (20) on the movable platforms (40) when the plurality of movable platforms (40) move, relative to the center of the array, in the same direction and at the same speed. Further provided is a gene sequencer including the biological sample image collection device (100).

The automatic analyzer includes a storage unit storing the reaction containers of cleaning target by day unit in such a manner that all the reaction containers mounted on a reaction disk are to be cleaning target within a plurality of days, and a control unit exerts a control in such a manner that during an operation state after the sample of analysis object is dispensed to the reaction containers, a sample of analysis object in each of the reaction containers is analyzed, and not the sample but a detergent is dispensed to the reaction containers of cleaning target of an appointed day, the reaction containers of cleaning target of the appointed day being stored in the storage unit, to soak and wash the reaction containers for a certain time.