A transfer device designed to extract an amorphous or semi-solid structure, tissue, or construct from supporting media while maintaining the spatial integrity/organizational architecture thereof. The transfer device can include a controller, an actuator assembly, a plunger, and a needle. The controller can move the transfer device and the plunger independently.

The present invention relates to a unit (1) comprising a microsystem (150) and at least one set of interface connections (16) for the microsystem (150); the microsystem (150) comprising a bottom plate (152) bearing the impression of at least one microstructured dynamic cell culture chamber (15), and a top plate (151), characterized in that the at least one microstructured chamber (15) is fluidically connected at inlet and/or at outlet by a set of connections (16) inserted removably into a hole in the upper plate (151). The present invention also relates to a dynamic cell culture system to this effect.

Provided are: a cell tray provided with a concave part for supporting a cell aggregate and a hole formed on the bottom of the concave part; and a device for producing a cell structure, said device being provided with the cell tray and a puncture part passing through the cell tray and the cell aggregate, characterized in that the puncture part passes through the cell aggregate supported by the concave part until the tip thereof intrudes into the hole. Also provided is a system for producing a cell structure, said system comprising: a determination part that examines the characteristics of cell aggregates; a fractionation part that classifies the cell aggregates depending on the results of the examination by the determination part; a discharge part that disposes the cell aggregates in a cell tray depending on the results of the classification by the fractionation part; a puncture part that pass through a plurality of cell aggregates disposed in the cell tray; and a holding part that aligns and holds a plurality of puncture parts passing through a plurality of cell aggregates.

A system for processing samples from a body of fluid. The system includes one or more sample bottles for acquiring a sample from the body of fluid. Each sample bottle initially retains a pre-filling fluid. Each sample bottle includes a fluidic inlet port and a bottle outlet port. Each sample bottle has an inlet check valve coupled to the fluidic inlet port, the inlet check valve configured to allow fluid from the body of fluid into a sample bottle via the fluidic inlet port when the pressure difference between the body of fluid and fluid within the sample bottle reaches a threshold. The system further includes at least one pump, the bottle outlet port of each sample bottle selectively coupled to the at least one pump via a different control valve. The at least one pump is configured, in a first configuration, to remove prefilling fluid from each selected sample bottle such that, for each selected sample bottle, the pressure difference threshold is reached and a sample from the body of fluid is acquired.

An improvement to a functional module for the selective application of substances inside fertile eggs represents an inventive solution in the field of poultry fanning, in particular in the field of poultry breeding, and more specifically in the step of application of vaccines and/or nutrients into fertile eggs by injection, this improvement reducing the risk of violation of biological safety, and ensuring the integrity and survival of the embryo (Em), limiting intra-ovum nutritional supplementation to the amniotic fluid (Li) only, without contact of the needle (a13) with the embryo (Em), and to achieve this condition the module for the selective application of substances inside fertile eggs (Ov) has a structure composed of an injector selector submodule (m1), a selective operation actuation submodule (m2), a speed control submodule (m3) and a common perforator/needle return submodule (m4).

A method of killing specific cells from among a group of cells cultured in a culture vessel by quick and brief laser treatment, the cell culture vessel comprising a main body and a to-be-irradiated layer attached to the main body, the to-be-irradiated layer containing an ingredient capable of absorbing laser light upon laser irradiation, the group of cells being cultured on the surface of the to-be-irradiated layer, the method comprising: applying laser light to a partial area of the to-be-irradiated layer directly below the specific cells.

An object moving device includes: a first drive mechanism configured to move a head unit in a first direction and in a second direction; a second drive mechanism configured to move an illumination unit in the first direction; and a third drive mechanism configured to move a camera unit in the first direction. A control unit controls the first drive mechanism to move the head unit on a first path. The control unit controls the second and third drive mechanisms to move the illumination unit and the camera unit on the first path between the first container and the second container. When the head unit and the illumination unit interfere with each other on the first path, the control unit implements control such that the head unit moves in the second direction and the head units moves in the first direction on a second path parallel to the first path.

The present invention provides an efficient apparatus for extracting biologically active substances through a magnetic particle method, comprising a magnetic needle, a magnetic needle moving mechanism, a sleeve and a sleeve moving mechanism and a vibration mechanism, a bracket, a positioning mechanism; the vibration mechanism is capable of generating vibrations to enable the sleeve moving mechanism to make upward and downward vibrations; wherein the magnetic needle can vertically insert into and move out of the sleeve; the sleeve can vertically insert into and move out of a sample treatment area; and the vibration mechanism comprises a lever bar, a movable fulcrum and a rotary mechanism. The present invention further provides an instrument comprising the apparatus for extracting biologically active substances. The present invention further provides a method for extracting and purifying biologically active substances using the apparatus or the instrument for extracting biologically active substances. The vibration frequency and amplitude of the apparatus and the instrument can be optionally adjusted, and the range of adjustments for the amplitude is greatly extended, so the apparatus and the instrument exhibit such advantages as making only small noise and have a long service life.

A subject moving device includes: a base; a head section provided with vertically movable rods and moving along a prescribed movement path above the base; a first container section which stores a subject of movement; a second container section which receives the subject of movement; a tip stocking section which holds a plurality of tips in a state where the plurality of tips are attachable to the rods, the tips being attachable to and detachable from the rods and being configured to suction the subject of movement and discharge the suctioned subject of movement in accordance with vertical movements of the rods; a tip discarding section which collects the tips having finished the suction and the discharge of the subject of movement and having been detached from the rods; and a control section which controls the vertical movements of the rods and the movement operations of the head section.

A centrifuge layering insert configured for insertion into a centrifuge tube includes a tube having a first open end and a second open end. The centrifuge layering insert also includes a casing having an outer wall, an inner wall, a first open end, and a second substantially closed end. The casing forms an annular space around the tube between the tube first end and the tube second end. The tube has at least a portion of the length extending beyond the first open end of the casing in a direction opposite the second open end of the tube.