An external fluidic system and methods of operating the same are provided. The fluidic system can be hot-swap connected to a flow-cytometer-based system at runtime to expand sheath or waste fluid storage capability of the flow-cytometer-based system by making only minimal changes to the flow-cytometer-based system. The external fluidic system can include a pump and a controller configured to operate the external fluidic system such that the sheath fluid is supplied from the external fluidic system to the flow-cytometer-based system or the waste fluid is extracted from the flow-cytometer-teased system and provided to the external fluidic system.

Method for calibrating a gas chromatograph to render the calibration of the gas chromatograph more error-proof, wherein relative response factors determined during the calibration are compared with universal relative response factors contained in the memory and typical of the detectors, where an error message is generated and output if the relative response factors determined in the calibration deviate beyond a predetermined degree from the universal relative response factors, and where the universal relative response factors are determined and provided for different components by the manufacturer of the detectors, for instance.

An automatic analysis device is provided with: a sample disk for holding a sample container that accommodates a sample; a reagent disk for holding a reagent container that accommodates a reagent; at least two different measuring units that respectively perform different types of analyses; a control part that controls the measuring units; and a display part that displays: a work flow area in which the flow of operation of the two or more measuring units is displayed; and an overview area in which the usable or unusable states of the respective measuring units are displayed, wherein the overview area has a unit necessity-of-use selection part that can select whether using each of the measuring units is necessary, and the control part controls the display part so as to change the display of the work flow area on the basis of the information set in the unit necessity-of-use selection part.

An automatic analysis apparatus of the present invention includes: a measurement section that measures a sample; a remaining quantity detecting section that detects that a remaining quantity of a consumable article used in the measurement section has become less than or equal to a predetermined quantity that is set in advance; a setting section that is capable of setting in which mode, of a first mode and a second mode applied for operation control of the measurement section, to operate the measurement section for each consumable article when the remaining quantity detecting section detects that the remaining quantity of the consumable article has become less than or equal to the predetermined quantity; and a control section that controls operation of the measurement section based on the setting of the setting section.

An automatic analyzer (100) includes: a storage unit (21b) that stores various parameters of the automatic analyzer (100) in association with each of elevations used in the automatic analyzers (100), the parameters being optimized for each of the elevations; an input unit (21d) that acquires information of an elevation at which the automatic analyzer (100) is provided; and a controller (21a) that reads the parameters stored in the storage unit (21b) and sets the read parameters to the automatic analyzer (100) based on the elevation acquired by the input unit (21d). As a result, various parameters can be easily adjusted according to a usage environment of the device.

A system and method for dispense characterization is disclosed. According to particular embodiments of the dispense characterization system and method, volumes of dispensed liquids can be determined. In more particular embodiments, additional characteristics and combinations of characteristics of a liquid dispensing event can be determined. Examples of additional characteristics that can be determined include the shape of the dispensing event, the velocity of the dispensing event, and the trajectory of the dispensing event. The dispense characterization system and method can be employed in automated biological sample analysis systems, and are particularly suited for monitoring liquid reagent dispensing events that deliver liquid reagents to a surface of a microscope slide holding a biological sample.

It is an object to provide a cover slip sticking device capable of improving matching between types of clearing agents and cover slips. As a means for solving the problem, a cover slip sticking device includes a dipping bath (21) in which slide glasses (22) on which specimens are attached are housed to be dipped in a clearing agent, a holder (11) having a cover slip (10) and cover slip information (14), a mounting part (C) on which the holder is mounted, a sticking part (B) sticking the cover slip (10) taken out from the holder (11) on the slide glass (22), a reading unit (62) reading the cover slip information (14), a storage unit (65) storing a type of the clearing agent and matching information between types of clearing agents and types of cover slips and a determination unit (66) comparing the cover slip information (14) read by the reading unit (62) and the type of the clearing agent stored in the storage unit (65) with the matching information to determine whether the types match with each other or not.

A system and method for dispense characterization is disclosed. According to particular embodiments of the dispense characterization system and method, volumes of dispensed liquids can be determined. In more particular embodiments, additional characteristics and combinations of characteristics of a liquid dispensing event can be determined. Examples of additional characteristics that can be determined include the shape of the dispensing event, the velocity of the dispensing event, and the trajectory of the dispensing event. The dispense characterization system and method can be employed in automated biological sample analysis systems, and are particularly suited for monitoring liquid reagent dispensing events that deliver liquid reagents to a surface of a microscope slide holding a biological sample.

The automatic analyzer includes: a device state managing unit that manages a device state of the automatic analyzer; an abnormality detecting unit that detects abnormality of the automatic analyzer based on information of the device state managed by the device state managing unit and a predetermined reference; an alarm planning unit that plans at least two alarms including an abnormality occurrence alarm and an handling available alarm regarding each of abnormality items detected by the abnormality detecting unit, the abnormality occurrence alarm being planned for notification to a user in a case where the abnormality occurs, and the handling available alarm being planned for notification to the user in a case where the automatic analyzer is in a device state where the automatic analyzer is available for handling the abnormality; and a notifying unit that notifies the alarms planned by the alarm planning unit.

The specimen analysis apparatus of the present invention comprises a measuring part; a display part; and a control part. The control part controls the measuring parts, displays on the display part an alarm display region displaying an alarm of a failure occurred in the measuring part, and a recovery operation display region displaying a recovery operation to cancel the alarm displayed in the alarm display region, and, when multiple alarms have occurred, displays multiple recovery operations to cancel them in the order of from higher priority to lower priority.