A photobioreactor with a device for emitting electromagnetic radiation, a device for emitting electromagnetic radiation for a photobioreactor, as well as methods of use, are provided. The photobioreactor includes a container for holding fluid media containing biological material and an electromagnetic radiation emitting device. The electromagnetic radiation emitting device has a housing with a source for emitting electromagnetic radiation arranged therein. The electromagnetic radiation emitting device including the housing thereof is arranged inside the container for holding biological material.

Methods of culturing microalgae in a continuous auxostat system are described herein. The methods may be used in mixotrophic culture conditions, and may be used in systems comprising open or closed bioreactor systems.

A cancer test device (1) is provided with: an application unit (40) for applying a staining agent (45), which can selectively stain a product of a cancer-relating gene in a living cell a chromatic color, onto a group of living cells; an imaging unit (10) for imaging the group of living cells having the staining agent (45) applied thereto; and a determination unit (52) for determining the level of malignancy of cancerization of the group of living cells on the basis of the state of the stained expression pattern of the cancer-relating gene in the group of living cells in an image obtained by the aforementioned imaging.

The invention relates to a bioreactor comprising a tank (100) capable of being operated for a working period, said tank (100) being intended to receive a culture medium comprising a cellular culture of photosynthetic microorganisms, a light source (200) arranged to emit incident light having a chosen incoming light intensity (Iin) in the direction of the tank, a temperature probe (400) for measuring the temperature of said culture medium in the tank, and a temperature regulator (500) capable of raising and lowering the temperature of said culture medium in the tank, and further comprising a control (700) of the temperature regulator arranged to adjust the temperature of the culture medium to a low setpoint value (VCB) during a first period, and to adjust the temperature of the culture medium to a high setpoint value (VCH) during a second period, the succession of said first and second periods making it possible to induce a cellular stress in at least some of said photosynthetic microorganisms during the working period.

To provide a cell culture container and a cell culture system that can perform cell sorting, culturing, cell processing, and the like in one space and a volume of the space can be varied to suit respective steps.

A cell culture container includes first molecules each bondable to target cells to be cultured, being immobilized to the container via a stimulus degradable linker, the container having a variable volume.

A cell culture system included a cell culture container, including first molecules each bondable to target cells to be cultured, being immobilized to the container via a stimulus degradable linker, the container having a variable volume, and a stimulus imparting device that imparts a stimulus to the stimulus degradable linker

Provided is a high throughput photobioreactor. The high throughput photobioreactor includes: a chamber; a plate installed in the chamber and mounted with a plurality of wells; a plurality of light sources installed in the chamber and irradiating light toward the plate; a light quantity controller positioned on an upper part of the plate to make quantities of light irradiated to the plurality of wells different; and a temperature controller controlling a temperature of the plate.

A method for tuning optical measurements on continuously mixed reactors, wherein a content of the reactor has at least one optically detectable measured variable, which is carried out by at least one optical measuring arrangement, wherein at least one optical measurement is tuned to a form, distribution, or movement state of at least one phase of the reactor content, wherein mixing the reactor content causes local changes in the permittivity within the reactor, which is detected at at least one location having a known distance from the at least one optical measuring arrangement to be tuned based on a permittivity signal, and wherein the detected permittivity signal of at least one location having a known distance from the at least one optical measuring arrangement to be tuned is used to tune at least one optical measurement to the form, distribution, or movement state of the reactor content.

A method for improving the illumination of a three-dimensional cellular structure such as an organoid or spheroid for imaging, comprising the steps of: culturing the structure with a scaffold; and directing light onto the structure using the scaffold. Also disclosed is a method for improving the illumination of a three-dimensional cellular structure such as an organoid or spheroid for imaging, comprising the steps of: culturing the structure; and directing light into the structure using a light source. Further disclosed is a method for improving the imaging of a three dimensional cellular structure such as an organoid or spheroid comprising the steps of applying waves to the structure and measuring the waves to create an image of the structure.

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.

Reactor plant and process for culturing phototropic microorganisms with a reactor vessel and a photosynthetic module, which are connected with one another in a circulation circuit by a pump and can be controlled via a control unit, where in the circulation circuit or in the reactor vessel, a homogenizer is provided, where a light-intensity control of the photosynthetic module is provided, and where a bypass of the circulation circuit or of the reactor vessel with a filter device which is arranged externally of the reactor vessel for separating off extracellular products during the fermentation is provided.