Provided is a distribution method with which particle components such as cells can be dispensed. In one aspect, provided is a method for distributing particles, the method including dispersing the particles in a plastic fluid, and dispensing the plastic fluid containing the particles. In another aspect, provided is a method for producing a product including a particle and a container for the particle, the method including dispensing a plastic fluid in which the particles are dispersed, from a storage part in which the plastic fluid is stored, to a plurality of the containers.

The present invention provides a magnetic bead purification system, including: a housing; a liquid path treatment system provided inside the housing, the liquid path treatment system being connectable to a reagent barrel and a waste liquid barrel; a sample addition needle group connected to the liquid path treatment system, the sample addition needle group being movable within the housing and connected to the liquid path treatment system, so as to receive a reagent from the liquid path treatment system or to discharge a waste liquid to the liquid path treatment system; a purification magnetic separation system, including a magnetic element, the purification magnetic separation system being controllable to apply a lateral magnetic force to a purification treatment position inside the housing or stop the application of the magnetic force by the magnetic element; and a purification station system movable between a purification treatment position inside the housing and a loading position outside the housing, the purification station system being adapted to load a container. The magnetic bead purification system of the present invention can easily achieve large capacity sample treatment.

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.

A laser processing machine for killing specific cells from a group of cells on a surface of a layer containing an ingredient capable of absorbing laser light, the laser processing machine being configured to: control a laser light source to output laser light at 5 W or less and at a wavelength of 380 nm or greater such that the laser light source is applied to a second area on a second surface of the layer opposed to the first surface; and control an actuator to provide a relative movement between the second area where the laser light is applied and the layer at a rate of 2000 mm/sec or less such that the irradiated second area absorbs energy to generate heat that kills unwanted cells on a first area of the first surface and the laser light does not instantly kill the specific cells on the first area upon irradiation.

A cell culture vessel for use with a laser processing machine, including: a layer containing an ingredient that generates heat upon laser irradiation; the layer kills specific cells from among a group of cells cultured on a first surface of the layer when a second surface of the layer is irradiated with laser light having an output of 5W or less at a wavelength of 380 nm or greater and a relative movement between a second area on the second surface where the laser light is applied and the layer is at a rate of 2000 mm/sec or less such that the second area absorbs energy of the laser light to generate heat that kills the specific cells that are present on a first area of the first surface and the laser light does not instantly kill the specific cells on the first area upon irradiation with the laser light.

A cell transfer device includes a base on which a container accommodating a plurality of cells is mounted, a head with a suction tip attached that sucks the cells in the container, and a control unit that controls the head. The cells are placed on a placement surface that is an upper surface of an underlying culture medium layer including a gel-like culture medium. The control unit acquires information on a height position of the placement surface, specifies a suction height for the cells existing at a first point on the placement surface, and causes the suction tip to suck the cells. Then, the control unit causes the suction tip to suck the cells existing at a second point different from the first point on the placement surface by using the suction height of the first point.

A sterile sampling apparatus includes a first to seventh flow paths, a sampling section, a first and second pumps, and a first to sixth opening/closing mechanism. The sampling section is disposed in the seventh flow path. The first pump is disposed in the sixth flow path. The second pump is disposed in the seventh flow path. The second flow path includes a first opening/closing mechanism. The third flow path includes a second opening/closing mechanism. The fourth flow path includes a third opening/closing mechanism. The first flow path includes a fourth opening/closing mechanism. The sixth flow path includes a fifth opening/closing mechanism. The seventh flow path includes a sixth opening/closing mechanism. The rate of the second pump is higher than that of the first pump.

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.

An image capturing system includes a camera unit capable of performing first image capturing to capture an image of a cell before transfer work is performed and second image capturing to capture the image of the cell after the transfer work; a determination unit configured to make a first determination to determine whether to select the cell based on selection criterion data from the image captured by the first image capturing and a second determination to determine whether to select the cell from the image captured by the second image capturing; a storage unit configured to store the selection criterion data; and a correction unit configured to update the selection criterion data stored in the storage unit to make the first determination and the second determination about the cell identical to each other in a subsequent determination when the first determination and the second determination have different determination results.

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.