A system and method for ejecting one or more fluids from a digital dispense device. The method includes a) inputting to a memory a volume per unit area for each of the one or more fluids to be ejected from the digital dispense device; b) matching the volume per unit area to a device resolution for the digital dispense device; c) formatting fluid ejectors for the digital dispense device for the device resolution; and d) ejecting fluid from the digital dispense device to provide the volume per area for each of the one or more fluids.

A dosing device is proposed which is designed for dosed output of a fluid. The dosing device has a block-shaped channel body, through which a dosing channel system passes. The dosing channel system has a fluid infeed opening and a plurality of fluid output openings. The fluid output openings are formed by the channel apertures of narrowed output sections of a plurality of output channels of the dosing channel system. The entire dosing channel system, including the output channels, is formed in the block-shaped channel body. The dosing channel system is preferably structured such that the flow velocity of the fluid channelled through during operation is at least substantially the same throughout with the exception of in the output sections of the output channels.

A system and method for ejecting one or more fluids from a digital dispense device. The method includes a) inputting to a memory a volume per unit area for each of the one or more fluids to be ejected from the digital dispense device; b) matching the volume per unit area to a device resolution for the digital dispense device; c) formatting fluid ejectors for the digital dispense device for the device resolution; and d) ejecting fluid from the digital dispense device to provide the volume per area for each of the one or more fluids.

A method of analyzing and/or sorting selected cells or other biological components, for example for cell-based therapy, includes sampling a sample with an open end of a probe to obtain a fluid stream with the sample in it. The probe with the open end also has a fluid supply to convey fluid to the open end, and a fluid exhaust to convey the fluid stream away from the open end. The method then includes conveying the fluid stream to a flow cytometer and analyzing the fluid stream by flow cytometry; and/or separating it into at least two components. An apparatus with the probe connected to the flow cytometer may support this method. The method can provide for sampling of multiple samples efficiently, in particular to select cells for cell-based therapies.

A method of analyzing and/or sorting selected cells or other biological components, for example for cell-based therapy, includes sampling a sample with an open end of a probe to obtain a fluid stream with the sample in it. The probe with the open end also has a fluid supply to convey fluid to the open end, and a fluid exhaust to convey the fluid stream away from the open end. The method then includes conveying the fluid stream to a flow cytometer and analyzing the fluid stream by flow cytometry; and/or separating it into at least two components. An apparatus with the probe connected to the flow cytometer may support this method. The method can provide for sampling of multiple samples efficiently, in particular to select cells for cell-based therapies.

A pipette has a first chamber and a second chamber that connects to the first chamber and extends with an outlet channel to a pipette tip. The chambers are separated from one another by a longitudinally displaceable piston having a piston non-return valve. The second chamber has a chamber non-return valve which is arranged upstream of the outlet channel. An associated method includes recirculating the liquid in the first chamber, filling the first chamber with the liquid via a direct feed line, filling the second chamber with the liquid from the first chamber by pulling back the piston in the filling position toward the first chamber with the piston non-return valve open and with the chamber non-return valve closed, and emptying the second chamber by advancing the piston in the emptying position towards the outlet channel, with the piston non-return valve closed and the chamber non-return valve open.

The present disclosure is directed to a dispensing system for providing a preset small volume of liquid ≤200 μl into a filling area of a microfluidic sample carrier comprising at least one flow channel, the system including, inter alia, at least one interface unit provided for each flow channel of the microfluidic sample carrier, with each interface unit comprising an injector with an injection channel, wherein the cross section of an outlet part of the injection channel is larger than a cross section of an inlet part of the injection channel and of the middle part of the injection channel. Furthermore, the present disclosure relates to a respective microfluidic sample carrier sealing system and to a respective method of dispensing sealing liquid into a microfluidic sample carrier.

A method of analyzing and/or sorting selected cells or other biological components, for example for cell-based therapy, includes sampling a sample with an open end of a probe to obtain a fluid stream with the sample in it. The probe with the open end also has a fluid supply to convey fluid to the open end, and a fluid exhaust to convey the fluid stream away from the open end. The method then includes conveying the fluid stream to a flow cytometer and analyzing the fluid stream by flow cytometry; and/or separating it into at least two components. An apparatus with the probe connected to the flow cytometer may support this method. The method can provide for sampling of multiple samples efficiently, in particular to select cells for cell-based therapies.

A method includes dispensing a liquid from a dispenser having a first piston channel and a first nozzle channel that is non-parallel to the first piston channel and is connected to the first piston channel at a first intersection. The dispenser includes a first piston configured to slide within the first piston channel; a first nozzle coupled with the first nozzle channel; a first valve located between a dispensing-liquid reservoir and the first intersection; and a second valve located between the first intersection and the first nozzle. Dispensing the liquid from the first dispenser includes pulling the first piston to initiate flow of a liquid in the dispensing-liquid reservoir to the first intersection; and subsequent to pulling the first piston, pushing the first piston to initiate flow of the liquid in the first intersection to the first nozzle so that the liquid is dispensed from the first nozzle.

The present invention relates generally to methods and materials pertaining to assays, for example immunoassays, for biomarkers in body fluids e.g. blood. The invention also relates to diagnostic or screening methods for infections, and methods of differentiating between infectious and non-infectious conditions in mammals, particularly equines, for monitoring response to anti-infective/antibiotic therapy. The invention further relates to a test fluid collection system adapted to permit dilution and analysis of the collected test fluid. The invention further relates to monitoring exertional rhabdomyolysis in equines, and assay devices for all these things.