A device for in vitro culture of embryos includes: an array having at least one well formed therein; and a bottom surface formed in the well and made of polydimethylsiloxane (PDMS). The use of the culture vessel having the well bottom surface made of PDMS has the effect of further increasing the blastocyst formation rate of embryos compared to the use of conventional arrays made of plastic.

The present invention provides a full-automatic cell production line, comprising a culture region and an operation region. The culture region comprises a B-stage platform body, and the B-stage platform body comprises a culture area, a refrigeration area, and a robot provided with a motion track. The motion track of the robot is linearly arranged. The culture area, the refrigeration area, and a manual delivery window all surround the track, and are all located in the operation region of the robot. The operation region is integrated with a liquid storage table, a cell factory liquid changing device, and a centrifugal bottle liquid changing device. The delivery window is used between the culture region and the operation region to deliver a material. The technical solution of the present invention is mainly used for full-automatic batch production of cells.

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 cell sheet transfer device and a cell sheet processing equipment. The cell sheet transfer device includes a first tubular body; a second tubular body at one end of the first tubular body and connected thereto; and a cell shovel at the end of the first tubular body and on one side of the second tubular body. A free end of the cell shovel is beyond a free end of the second shovel body.

A cell culture system including self-propelled transport device for transporting cells or materials to be used for culture operation, treatment units for performing culture operation using the cells and materials and a transport command unit for controlling the self-propelled transport device to move the cells and materials to a required treatment unit. To control the self-propelled transport device, the transport command unit uses cell driving parameters when the cells are moved, and uses material driving parameters when the materials are moved. Hence, transport of cells and materials using the self-propelled transport device can be optimized, and culture operation can be performed efficiently.

A method and automated apparatus for locating and selecting a colony of microorganisms on a culture dish and subjecting the obtained sample to a plurality of downstream tests including a test to identify the microorganism and a test to identify the susceptibility of the microorganism to antibiotics. The method includes the automated steps of locating and selecting a colony of microorganisms on a culture dish; obtaining a sample of the selected colony of microorganisms; preparing a suspension of a sample of microorganisms automatically by submerging the pick tool with the sample in a suspension, after which the pick tool is vibrated in at least the vertical direction to release the sample from the pick tool in the suspension. The turbidity of the suspension is monitored to ensure that the concentration of microorganism in suspension is sufficient so that the suspension is used a source for sample for both identification and antibiotic susceptibility of the microorganisms in the sample. The apparatus and system optionally provide for downstream processing of samples prepared for antibiotic susceptibility testing (AST). Such apparatus includes further processing after inoculation of an AST panel for the AST test. Such further processing includes capping and transferring inoculated panels to AST instrument.

An article including either a frame having an interior cavity, and a flexible liner situated within the interior cavity; or a deformable frame having an interior cavity. Either frame can receive a sample, such as liquid having suspended live cells, and cooling freezes the sample to a solid sample. The solid sample can be readily ejected from the article having either a frame with the flexible liner, or the deformable frame, without extensive thawing. The solid sample can be rapidly displaced from the article.

Devices for magnetic 3d culture are described including magnetic lids/bases for single Petri plates and adjustable height cap for same. Similar devices for multi-magnet culture plates wherein multiwell plates have all adjacent magnets orientated in the opposite polarity, and methods of making same.

An apparatus for the automated processing of samples containing biological cells—in particular, of blood samples or other cell samples is provided. The apparatus has at least the following components: a sample receiving device configured to receive one or more samples; an auxiliary material receiving device configured to receive one or more auxiliary materials; a sample carrier receiving device configured to receive one or more sample carriers; a discharge device configured to discharge one or more samples from a discharge position; and a capture device configured to capture one or more discharged samples in a capture position to obtain one or more prepared samples; wherein the distance between the discharge position and the capture position can be adjusted to a prespecified height, and the apparatus further includes at least one temperature control device for controlling the temperature of at least one of the sample carriers.

A device for preparing sample material is designed as a rotary device by means of which a defined quantity of liquid can be drawn in into a sample receiving chamber for the sample material or can be expelled from the sample receiving chamber for the sample material, by means of a rotary motion.