One or more light sources may apply stimuli to a colony of organisms. The stimuli may include visible and non-visible light. The stimuli, taken together, may tend to favor survival of organisms that are adapted to perform photosynthesis which involves absorbing energy from infrared or ultraviolet light. In some cases, the set of stimuli may include illuminating the entire colony of organisms with green light, illuminating only a first portion of the colony with pulsed ultraviolet light, and illuminating only a second portion of the colony with pulsed infrared light.

Cell culture devices are described herein that have notched lids, notched lids with corresponding gripping pads included on their bases, or gripping tabs included on their bases to minimize or eliminate the need for a user to contact a lid when attempting to lift or move a lidded cell culture device. In addition, methods for using the cell culture devices are also described herein.

Disclosed is a spheroid forming culture container using a temperature-sensitive glycol chitosan derivative and a spheroid forming method using the same. In the disclosed spheroid forming culture container, a surface of a culturing space is coated with a glycol chitosan derivative having reversible sol-gel transition characteristic depending on temperature.

The invention provides a device for growing cells—referred to as a cassette. The cell culturing device includes a housing that contains a lid having an optically clear window; a fluid distribution channel; a sample injection port fluidically connected to the fluid distribution channel; a base housing a porous media pad; and a media injection port fluidically connected to the media pad. The lid mates to the base to form a sterile seal; the fluid distribution channel is disposed over the media pad, which is viewable through the optical window; and sample fluid introduced into the fluid distribution channel is distributed evenly to the media pad, e.g., via a plurality of channels. The invention also provides kits that include cassettes of the invention and a tube set.

A device for performing a cell study. The device comprises a plate having a plurality of wells, each configured for containing aqueous solution and having a well bottom with a plurality of picowells and a plurality of biosensors each configured for measuring at least one cell characteristic while being in contact with the aqueous solution in a respective the well. The position of each the biosensor in a respective the well is limited by at least one pin.

The present invention relates to a novel bioactivity testing structure for single cell tracking using a gelling agent and a bioactivity testing system including the testing structure. The present invention also relates to bioactivity testing, drug susceptibility testing, antibiotic screening, and diagnostic methods using the testing structure. The bioactivity testing structure of the present invention enables very rapid and simple drug susceptibility testing of bacteria, particularly Mycobacterium tuberculosis, drug screening, and bacterial diagnosis. Particularly, the use of the testing structure enables DST and diagnosis of bacteria only by pretreatment without the need to concentrate human sputum samples irrespective of inoculum effect, ensuring rapid, accurate, and simple testing compared to conventional tuberculosis diagnosis or DST systems. In addition, the testing structure of the present invention simultaneously enables the diagnosis and drug susceptibility testing of tuberculosis. Therefore, the present invention provides an effective alternative to the prior art.

An apparatus for culturing cells of the present disclosure includes: a cabinet that has a main surface and a side surface, the main surface having a window; a main surface aspiration port disposed at the main surface of the cabinet; and a side surface aspiration port disposed at the side surface of the cabinet. In the cross section of the cabinet taken along the horizontal direction, a first vessel supplying part for supplying a first vessel is disposed at a midportion of the cabinet, and a second vessel supplying part for supplying a second vessel is disposed at an inner peripheral portion of the cabinet. The first vessel supplying part has a first lid capable of entirely covering the first vessel supplying part. The first vessel has no lid. The second vessel supplying part has no lid. The second vessel has a second lid.

A method for observing biological species on a culture medium contained in a container having at least one translucent face, the method including the steps of: a) directing a light beam onto one portion of the translucent face, so as to define at least one illuminated region and at least one non-illuminated region of the face; and b) acquiring an image of a portion of the surface of the culture medium illuminated by the light beam, the acquisition being carried out through at least one of the non-illuminated regions of the translucent face and along an optical acquisition axis forming a non-zero angle (a) with the direction of propagation of the light beam.

Means which enables preparation of a thick cell aggregate by a simple process without an operation of detaching and stacking of cells is disclosed. The method for preparing a three-dimensional cell aggregate by the present invention comprises: a cell encasing step of placing a cell suspension in a cell container; and a pressure application step of applying pressure to cells in the container. The cell encasing step and the pressure application step may be carried out a plurality of times. By the present invention, a thick, robust cell aggregate can be obtained by a simple operation of applying pressure to a cell suspension or a medium containing cells.

Since the method does not require an operation of stacking a plurality of cell sheets, the cells are hardly damaged, and the conditions of the cells can be favorably maintained, so that the cells can be advantageously used as a tissue piece for transplantation.

A petri dish has interlock features between the lid and dish that allow single-handed engagement of the lid with the dish by rotation, so that the lid and dish may be raised by grasping only the lid without stabilization of the dish with a second hand. Disengagement is similarly single-handed.