Systems and methods for positive dispense verification. In one aspect, a system has a plurality of light emitters. The light from the emitters is directed toward a plurality of light detectors across a proximately horizontal plane. The liquid dispense device is positioned above the horizontal plane of light emission from the plurality of light emitters to the plurality of light detectors such that the dispensed liquid will travel through the horizontal plane defined by the emitted light and onto the container being inoculated. Each of the plurality of detectors is coupled to an amplifier. The amplifier generates a signal in response to an interrupt in the transmission of light from the light emitters to the light detectors when the light path is disrupted by the dispense of liquid confirming the liquid was dispensed onto the container.

A device for capturing biological particles in suspension in a liquid medium. The device includes a container that is open via a lower opening, and a filter membrane fixed on the container in such a way as to close the lower opening. Inside the container are: a buffer made of a porous foam and having a planar face resting on the filter membrane, an absorbent block resting on the buffer and able to absorb the liquid medium when it is in contact with the liquid medium, and a spring designed to impede the expansion and/or movement of the absorbent block away from the lower opening of the container. Also, methods for capturing biological particles in suspension in a liquid medium using a capture device, and preparation a sample intended for biological analysis. Further an analysis apparatus that has a capture device.

The present invention provides a three-dimensional bioprinter for fabricating cellular constructs such as tissues and organs using electromagnetic radiation (EMR) at or above 405 nm. The bioprinter includes a material deposition device comprising a cartridge for receiving and holding a composition which contains biomaterial that cures after exposure to EMR. The bioprinter also includes an EMR module that emits EMR at a wavelength of about 405 nm or higher. Also provided is a bioprinter cartridge which contains cells and a material curable at a wavelength of about 405 nm or greater. The cells are present in a chamber and arc extruded through an orifice to form the cellular construct.

This disclosure is directed to a device and a system for picking a target analyte of a suspension. A picker introduces at least one force, such as by a magnetic gradient and/or by a pressure gradient, to extract the target analyte from a sample.

A spheroid generator includes a body part; a main injection part which is formed in the body part so that a cancer cell solution is injected and configured to stop the flow of the cancer cell solution when the cancer cell solution comes into contact with a culture medium; and a sub-injection part which is formed in the body part so that an anticancer substance or a stromal cell solution is injected, and communicates with the main injection part so that the injected anticancer substance or stromal cell solution flows to the main injection part.

The present invention relates to a cell culture device comprising at least a fluidic channel having at least a cell medium inlet and a cell medium outlet, said fluidic channel comprising a lower wall extending between the cell medium inlet and the cell medium outlet, the cell culture device further comprising at least one recess configured to receive a plurality of cells, said recess being formed by the lower wall and defining a bottom surface, and at least a cell trap, said cell trap being configured to capture a cell advected in the fluidic channel and then to make the cell sediment to the bottom surface of the recess.

A pipette tip extension having a proximal end, a distal end, and an exterior wall extending between the proximal end and the distal end is disclosed. The exterior wall has an outer side and an inner side and encloses an inner cavity which is delimited by the inner side of the exterior wall. The exterior wall forms at the proximal end a reception aperture. The pipette tip extension further has one or more distance elements arranged at the inner side of the exterior wall and protruding into the inner cavity.

The present invention provides a three-dimensional bioprinter for fabricating cellular constructs such as tissues and organs using electromagnetic radiation (EMR) at or above 405 nm. The bioprinter includes a material deposition device comprising a cartridge for receiving and holding a composition which contains biomaterial that cures after exposure to EMR. The bioprinter also includes an EMR module that emits EMR at a wavelength of about 405 nm or higher. Also provided is a bioprinter cartridge which contains cells and a material curable at a wavelength of about 405 nm or greater. The cells are present in a chamber and are extruded through an orifice to form the cellular construct.

A method for washing particles includes obtaining an array plate that includes an array of hydrophilic areas surrounded by one or more hydrophobic areas. A respective solution containing a sample is located on a respective hydrophilic area of the array of hydrophilic areas. The respective hydrophilic area includes one or more indentations from a respective surrounding hydrophobic area of the one or more hydrophobic areas. The respective hydrophilic area includes a first indented surface that is offset from a reference surface defined by the respective surrounding hydrophobic area. The method also includes placing an aspirator nozzle above the respective hydrophilic area at a predefined distance from the first indented surface, and aspirating the solution with the aspirator nozzle while the aspirator nozzle is located at the predefined distance from the first indented surface.

Aspects of the invention relate to liquid transfer systems including a pipette tip having a body defining an inner volume and having first and second ends, the first end arranged to transfer a volume of liquid into and out of the pipette tip and the second end arranged for attachment to a pipette, and a bladder sealingly attached to the body. In some embodiments, the bladder is disposable in the inner volume. The bladder may be defined by a membranous sac and/or a planar membrane. The bladder may be moveable in response to an applied pressure to transfer liquid. The bladder also may be stretchable to accommodate a volume of fluid. In some embodiments, the pipette tip is used in a cell culture incubator, with a manipulator including a pipette that is in fluid communication with the pipette tip.