A robotic picker with a pick head unit for a robotic tube handler that provides for automated transport and sampling of laboratory tubes, the picker having a prong picker with a multiple of depending pick prongs optimized for an orthogonal arrangement of tubes, typically in a tube rack, wherein the pick head unit has a mechanism for shifting the radial orientation of the pick head unit to accommodate both orthogonal and diagonal arrangements of laboratory tubes.

A laboratory system and a method for controlling a laboratory system comprises multiple subsystems; each subsystem being configured to receive and carry out a command; and a master control device configured to process command groups and/or command(s) within the same command group simultaneously; to process command groups and/or command(s) of different command groups sequentially; and within a command group, to process command group(s) and/or command(s) grouped into a command group before processing other commands command group(s) and/or command(s).

An automated positive pressure solid phase extraction apparatus and method comprising two tiered lifts devices each individually controllable to individually vertically translate within an elevator framework between a base on which the elevator framework is mounted and a manifold plate supported by the framework in a substantially horizontal plane parallel with and vertically above the two tiered lifts devices and a rectilinearly translating shuttle assembly comprising a shuttle supporting labware for rectilinear travel into and out of the elevator framework to handoff the labware to one of the two tiered elevator lifts or both.

A gas-liquid separator according to an embodiment of the present invention separates a mobile phase containing a gas and a liquid into a gas and a liquid. The gas-liquid separator according to the embodiment of the present invention includes an introduction flow channel to which a mobile phase is introduced, and a plurality of discharge flow channels connected to the introduction flow channel. A gas and a liquid are discharged from a discharge port of the discharge flow channel.

A flow cytometry apparatus includes a flow cytometer having a suction or negative-pressure intake probe, a support for a microplate having a plurality of sample wells, and motive elements operatively connected to at least one of the probe and the support for moving the intake probe and the support relative to one another so that the intake probe is sequentially aligned with different sample wells of the microplate. The apparatus has no fluid pumping elements between the support and the flow cytometer so that a bubble-separated sample stream is forced to the flow cytometer solely by virtue of a negative pressure communicated via the intake probe.

A sample injector for injecting a fluid into a fluidic path, wherein the sample injector comprises a robot arm configured for moving an injection needle, when being connected to the robot arm, between a fluid container containing the fluid and a seat in fluid communication with the fluidic path, the needle configured for aspirating the fluid from the fluid container, when the needle has been moved to the fluid container, and for injecting aspirated fluid into the fluidic path, when the needle is accommodated in the seat, and the seat configured for accommodating the needle and providing fluid communication with the fluidic path, wherein the robot arm is configured for selectively disconnecting the needle from the robot arm when the needle is accommodated in the seat, and wherein the robot arm is configured for performing a further task while the needle is disconnected from the robot arm.

An instrument for processing a biological sample includes a chassis. Connected to the chassis is a tape path along which a tape with a matrix of wells can be automatically advanced through the instrument, a dispensing assembly for dispensing the biological sample and a reagent into the matrix of wells of the tape to form a biological sample and reagent mixture, a sealing assembly for sealing the biological sample and reagent mixture in the tape, and an amplification and detection assembly for detecting a signal from the biological sample and reagent mixture in the matrix of wells in the tape.

A cell picking device includes a supporter that supports a rack having a plurality of holes for holding a plurality of pipette tips, a sucker used to suck a sample, a driver that moves the sucker in an up-and-down direction and moves the sucker and the supporter relative to each other in a horizontal direction, and a controller that controls the driver such that, any pipette tip out of the plurality of pipette tips held by the rack is attached to the sucker by movement of the sucker in the up-and-down direction and the sucker is moved to a position outwardly of the rack by movement of the sucker and the supporter relative to each other.

The invention provides a small-sized automatic analyzer being compact, enabling a large number of analysis items to be carried out, and having a high processing speed. The automatic analyzer is particularly suitably applied to a medical analyzer used for qualitative/quantitative analysis of living body samples, such as urine and blood. A plurality of sample dispensing mechanism s capable of being operated independently of each other are provided to suck a sample from any one of a plurality of sample suction positions and to discharge the sucked sample to any one of a plurality of positions on a reaction disk. The automatic analyzer having a high processing capability can be thus realized without increasing the system size.

Systems and methods for delivering fluid to a microfluidic device is provided. The system includes a multi-well plate having a plurality of wells and an inlet tube having a first end being in communication with the one or more wells of the multi-well plate and a second end being in communication with a microfluidic device. The first end of the inlet tube is moveable between the plurality of wells of the multi-well plate to deliver fluid to the microfluidic device from the plurality of wells of the multi-well plate.