Aspects of the invention relate to liquid transfer systems including a pipette tip having a body defining an inner volume and having first and second ends, the first end arranged to transfer a volume of liquid into and out of the pipette tip and the second end arranged for attachment to a pipette, and a bladder sealingly attached to the body. In some embodiments, the bladder is disposable in the inner volume. The bladder may be defined by a membranous sac and/or a planar membrane. The bladder may be moveable in response to an applied pressure to transfer liquid. The bladder also may be stretchable to accommodate a volume of fluid. In some embodiments, the pipette tip is used in a cell culture incubator, with a manipulator including a pipette that is in fluid communication with the pipette tip.

A device for providing a sterile environment for the incubation of cell cultures is proposed, comprising a warming chamber with heating elements, sensors for temperature, humidity and CO2, and a gas supply providing a gas connection in the interior. The device also has a cultivation tank located in the warming chamber. This has a sealable passage for each sensor, and also a sealable gas inlet and outlet that couples to the gas connection inside the warming chamber. The sensors of the warming chamber are arranged to fit into respective passages of the cultivation vessel. The device also has a water reservoir arranged in the cultivation tank. The three elements of the warming chamber, the cultivation container and the water reservoir can be sterilized separately using the optimal method for each. Since the sensors are not part of the cultivation container, the latter can also be decontaminated by high temperatures. The sterilized warming chamber ensures that the cell cultures in the cultivation container cannot be contaminated from the outside, nor can they cause contamination in the laboratory.

A cell culturing system includes a processing unit that performs culturing of cells, a reactor installation device in which the processing unit is capable of being installed, a connection circuit that is connected to the processing unit, and a circuit control device to which the connection circuit is capable of being attached to and detached from and that is capable of supplying the cells and a culture medium from the connection circuit to the processing unit, and to receive a collection of cultured cells from the processing unit into the connection circuit. The processing unit includes a plurality of bioreactors. The reactor installation device is disposed separately with respect to the circuit control device.

A cell culture system is provided that includes at least one multi-layered vessel for culturing cells, and a cabinet comprising an interior cavity enclosed by one or more sidewalls. The cabinet being configured to house the multi-layered vessel within the interior cavity. The multi-layered vessel includes a cell culture space within the multi-layered vessel. The cabinet can change an orientation of the multi-layered vessel from an upright orientation to a tilted orientation.

System and method for providing biocompatible, nutrient filled media to the Human Cells, Tissues, and cellular and tissue-based Products (HCT/P) while removing wastes. The present teachings provide for sensing the characteristics of the media, and modifying the characteristics when necessary. The present teachings can also provide components that can provide fluid pumping integrated with fluid gas exchange, and sensing of fluid characteristics at consistent times during the fluid flow cycle. System and method control multiple bioreactors from a centralized media reservoir, while fluidically isolating the bioreactors from cross-contamination.

In one embodiment, a concentrically baffled reactor includes an outer housing that defines an interior space, an inlet through which material can be delivered into the interior space, an outlet through which material can be removed from the interior space, and multiple concentric baffles within the interior space that define multiple concentric reactor zones through which the material can sequentially flow to the outlet.

A data collection hub and method wherein a controller is configured to receive data from a plurality of sensors sensing conditions related to the performance of operations on cells by at least one instrument. A database stores the data from the plurality of sensors and the controller is configured to compare data from the plurality of sensors for a past operation with the data for a more recent operation.

A data collection hub and method wherein a controller is configured to receive data from a plurality of sensors sensing conditions related to the performance of operations on cells by at least one instrument. A database stores the data from the plurality of sensors and the controller is configured to compare data from the plurality of sensors for a past operation with the data for a more recent operation.

The present invention relates to a device and a method for inducing pluripotent cells using energy and, more specifically, has an effect of inducing new type pluripotent cells having pluripotent characteristics by applying energy such as ultrasonic waves, lasers or heat treatment to differentiated cells.

Devices, systems, and methods can be used for the automated production of dendritic cells (DC) from dendritic cell progenitors, such as monocytes obtained from peripheral blood, and the automated generation of immunotherapeutic products from those dendritic cells, all within a closed system. The invention makes it possible to obtain sufficient quantities of a subject's own DC for use in preparing and characterizing vaccines, for activating and characterizing the activation state of the subject's immune response, and to aid in preventing and/or treating cancer or infectious disease.