A method and system of and for handling, preserving, separating, filtering, collecting, manipulating, and/or culturing ex vivo biological material including red blood cells, white blood cells, and blood plasma within a bioreactor having a gas permeable membrane that allows for passive ventilation.

An intelligent bacteria collection system includes a bottle opening module and a peristaltic pump module opposite to each other, wherein a guide rail is arranged between the bottle opening module and the peristaltic pump module, and a tray module is placed on the guide rail; a manipulator module and the peristaltic pump module are fixed on an infusion operation platform; a control infusion module is placed on the tray module, which can be moved to and fixed on the infusion operation platform by the manipulator module. The present invention replaces the conventional artificial bacteria collection process, makes the bacteria collection process more rapid, reduces the possible secondary pollution in the manual detection operation process, improves the accuracy of the bacteria collection detection, and improves the work efficiency. The present invention provides high degree of automation, wherein no manual operation is required in the bacteria collection process.

An apparatus and method for preparing and culturing cells comprises a gas permeable chamber having at least an inlet and an outlet for introducing culture medium and cells. A cell growth substrate placed at the end(s) of the gas permeable chamber for cells anchored or embedded. The present invention discloses a simple but efficient cell culture method by slowly rotating the cell culture apparatus horizontally combining with a partially filled culture media in the gas permeable container in order to be able to expose the carriers and submerge the carriers intermittently, to achieve an optimal cell culture environment through the efficient oxygen transfer, CO2 balance, with sufficient nutrient supply, without vigorous agitation to achieve oxygen transfer. The horizontally rotation movement with the present cell growth apparatus efficient the nutrition, carbon dioxide and oxygen transfer during cultured process for production of cellular protein products, viruses or harvesting the cells.

Material processing apparatus, systems, methods, and products are described. An example of a material processing apparatus includes a holding member, a base, a tensioning member, an actuator, and a first inner member. The holding member defines a holding member passageway. The base is attached to the holding member. The tensioning member is partially disposed within the holding member passageway. The tensioning member defines a tensioning member passageway. The tensioning member is moveable relative to the holding member between a first position and a second position. The actuator is attached to the tensioning member and is moveable in a first direction and a second direction. Movement of the actuator results in movement of the tensioning member between its first position and second position. The first inner member is adapted to be disposed within the tensioning member passageway.

This cell production system is provided with: a robot that assists cell production; and a plurality of closed system cell production devices which are affected by the robot in a one-to-many manner, wherein the closed system cell production devices are each provided with a double-sided structure of a dangerous region side affected by the robot and a safe region side on the reverse side of the dangerous region side.

A concentration device for concentrating a liquid containing a target object, the concentration device including: a container configured to store the liquid containing the target object; a filter in the container; and a position control portion configured to change a position of the filter in the container.

A multi-position support for a multi-layer cell culture apparatus includes a primary base that rests against a support member in an upright configuration. A support surface is offset vertically from the primary base in the upright configuration. The support surface supports the multi-layer cell culture apparatus with the multi-layer cell culture apparatus located thereon. An intermediate surface extends between the primary base and the support surface. The intermediate surface meets the primary base at an interface that extends at an oblique angle to sides of the primary base. The multi-position support has a tilted configuration where the multi-position support is rotated about the interface such that the support surface is closer to the support member than in the upright configuration with the support surface supporting the multi-layer cell culture apparatus thereon.

Disclosed herein are cell processing systems, devices, and methods thereof. A system for cell processing may comprise a plurality of instruments each independently configured to perform one or more cell processing operations upon a cartridge, and a robot capable of moving the cartridge between each of the plurality of instruments.

This invention relates to compositions of matter, methods, modules and instruments for automated mammalian cell growth and mammalian cell transduction followed by nucleic acid-guided nuclease editing in live mammalian cells.

Micro-biological colony counters and more particularly, systems and methods for feeding, identifying, counting, classifying, segregating and collecting organic samples such as but not limited to micro-organisms. The system can classify colonies in different classes such as bacteria and fungus present in an organic sample and also gives a digital count on the number of colonies present in each of the classes separately. The system reduces the time in counting and classification of microbes in each class separately, eliminates manual errors and requires less manual intervention. The system is reliable and can perform the counting and classification of microbes in each class separately even in absence of well-trained technician. The system can count surface colonies in petri-dish and can count colonies in different size or diameter of petri-dish.