A system for an automated production of high cell density seed culture, HCDC, preparations, for cryo-preservation comprising a cell expansion device for growing a HCDC in a medium inside a device volume of the cell expansion device, at least one sensor for collecting data by at least temporally monitoring at least one parameter being indicative of the physiological state of the HCDC; and a control unit for processing the collected data to determine whether at least one predetermined criterion is fulfilled by the monitored parameter to control, based on whether the at least one predetermined criterion is fulfilled by the monitored parameter, at least a partial exchange of the medium by a cryo-protective agent, CPA.

Systems (100) and methods for perfusion control in a bioreactor (120) are provided. The system (100) comprises a media container (110) connected to the bioreactor (120) and weighing scales (113, 123) measure weight of the bioreactor (120) and the media container (110). A plurality of controllers (225, 245) are connected to the weighing scales and configured to continuously feed the media from media container (110) to the bioreactor (120) at a user defined rate using a motor pump (112). A filter (130) is provided to receive feed from the bioreactor (120) through a recirculation line (121) and a permeate flow line (141) is connected to the filter (130) to flow out the permeate from the filter (130). When weight of the bioreactor (120) goes beyond the upper (U) or lower (L) permissible weight limit, a controller (225) connected to the weighing scale of the bioreactor (120) sends a signal to operate the permeate motor pump (142) either to flow out the permeate from the filter (130) or to stop the motor pump (142).

Disposable, pre-sterilized, and pre-calibrated, pre-validated sensor components are provided. The sensor components interact with a sensor system having disposable fluid conduit or bioreactor bag and a reusable sensor assembly. The components can include an optical bench or inset optical component or module designed to be integrated within the disposable fluid conduit or bioreactor bag, which provides an optical light path through the conduit or bag. The sensors systems are designed to store sensor-specific information, such as calibration and production information, in a non-volatile memory chip on the disposable fluid conduit or bag and on the reusable sensor assembly. Methods for calibrating the sensor and for determining a target property of an unknown fluid are also disclosed. The devices, systems and methods relating to the sensor are suitable for and can be outfitted for turbidity sensing.

In order to cut a plurality of clumps having an approximately uniform shapes and approximately uniform dimensions out of a cell aggregate which has proliferated and appropriately eliminate contamination with fragments of different shapes or dimensions, when cutting the clumps of approximately uniform shape out of the cell aggregate which has proliferated, cutting lines along which the clumps of a specific shape are cut out are set such that the area of a peripheral part of the cell aggregate which is not cut by the cutting line exceeds the surface area of one of the clumps, and the cell aggregate is cut by irradiating with laser light in such a way as to trace the cutting lines.

The purpose of the present invention is to embody an inspection device wherein dew condensation in a sample container, in particular, in the lid thereof can be prevented or quickly removed without giving heat shock to a sample in the sample container. For this purpose, provided is an inspection device comprising an isothermal part 110 which comprises a rack 111 and maintains a sample container 150 storing a sample in a temperature-controlled environment, said sample container 150 comprising a plate and a lid, a detection part 120 which comprises an optical device for observing and inspecting the sample stored in the sample container, and a transportation part 130 which transports the sample container from the isothermal part to the detection part and vice versa, wherein at least one of the isothermal part, detection part and transportation part is provided with a member by which the lid of the sample container is held in a state lifted from the plate.

This invention relates to compositions of matter, methods, modules and automated, end-to-end closed instruments for automated mammalian cell growth, reagent bundle creation and mammalian cell transfection followed by nucleic acid-guided nuclease editing in live mammalian cells. The disclosed compositions and method entail making “reagent bundles” comprising many (hundreds of thousands to millions) clonal copies of an editing cassette and delivering or co-localizing the reagent bundles with live mammalian cells such that the editing cassettes edit the cells and the edited cells continue to grow.

A microscope system includes: an enclosed sample chamber for receiving a sample carrier in an examining position in which a sample arranged on the sample carrier is microscopically examinable; an enclosed incubation chamber that is separated from the sample chamber and that receives the sample carrier in at least one storing position; and a sample carrier transfer unit including an enclosed transfer chamber that is connected to the sample chamber by a first opening, and to the incubation chamber by a second opening, and a sample carrier handling device arranged within the transfer chamber for moving the sample carrier between the storing position and the examination position.

A Disposable Bioprocess System having a Single-Use-Bioreactor, a Single-Use-Pump and a single-use micro-organism retention filter. Combined most suitable for cultivation of suspended micro-organisms in a liquid media at high micro-organism concentration in a perfusion mode continuous process for expression of biological material. The inlet port of the liquid Single-Use-Pump connects via a valve to the broth reservoir of the Single-Use-Bioreactor through a liquid conveying port. The outlet port of the liquid pumping Single-Use-Pump connects via a valve to a micro-organism retention filter. And a method for operating the sterile Disposable Bioprocess System in perfusion mode for continuously processing.

An apparatus, that relates to the field of in vitro fertilization, is provided for the combined incubation and vitrification of a biological material. The apparatus can be configured to allow for automatic incubation and vitrification of a viable biological material. Thereby predetermined protocols for handling the biological material can be performed precisely and accurately thus avoiding errors and deviations from the intended protocol, as caused by manual human intervention.

Various systems, methods, and devices are provided for focusing particles suspended within a moving fluid into one or more localized stream lines. The system can include a substrate and at least one channel provided on the substrate having an inlet and an outlet. The system can further include a fluid moving along the channel in a laminar flow having suspended particles and a pumping element driving the laminar flow of the fluid. The fluid, the channel, and the pumping element can be configured to cause inertial forces to act on the particles and to focus the particles into one or more stream lines.