Embodiments disclosed herein relate to methods for purifying, activating, and expanding T cells, and subsets thereof.

Devices for magnetic 3d culture are described including magnetic lids/bases for single Petri plates and adjustable height cap for same. Similar devices for multi-magnet culture plates wherein multiwell plates have all adjacent magnets orientated in the opposite polarity, and methods of making same.

The present disclosure provides feeder hydrogel particles that can function to support the growth, proliferation, and/or activation of a target cell in culture. The present disclosure also provides methods of culturing target cells with feeder hydrogel particles.

This present invention provides means for cell harvesting and isolation to be carried out with a single apparatus. This represents a more convenient way for the processing of cells compared with known methods and represents a useful development for the manufacture of cell therapies.

The present invention relates to a microrobot-based biomimetic system for delivering a drug or cell, organizing microorgans, and controlling fluid flow. The microrobot-based biomimetic system according to one aspect of the present invention comprises: a network for interconnecting microorgans constituting a biometric organ model; a microrobot for delivering a targeted drug or cell while moving in the network; and a magnetic field control unit for controlling an operation of the microrobot.

A cell activation reactor and a cell activation method are provided. The cell activation reactor includes a body, a rotating part, an upper cover, a microporous film, and multiple baffles. The body has an accommodating space, which is suitable for accommodating multiple cells and multiple magnetic beads. The rotating part is disposed in the accommodating space and includes multiple impellers. The microporous film is disposed in the accommodating space and covers multiple holes of the accommodating space. The baffles are disposed in the body. When the rotating part is driven to rotate, the interaction between the baffles and the impellers separates the cells and the magnetic beads.

Embodiments of the instant disclosure relate to compositions and methods of use thereof that allow for faster integration of acute cardiac pacing experiments compared to the direct genetic modification methods currently in use. Embodiments provided herein provide for spheroids that may be stored, transported, and deployed on site to confer optical pacing of cardiac tissue for use in high-throughput functional in vitro screening assays.

Devices for magnetic 3d culture are described including magnetic lids/bases for single Petri plates, adjustable height cap for same, as well similar devices for multi-magnet culture plates. A pen-like device for sterilely lifting and moving cells is also described, and this magnetic pipettor can also exist in multi-well magnetic pipettor formats.

Microfluidic devices are described that include a microfluidic channel, a first array of one or more magnets above the microfluidic channel, each magnet in the first array having a magnetic pole orientation opposite to a magnetic pole orientation of an adjacent magnet in the first array, and a second array of one or more magnets beneath the microfluidic channel, each magnet in the second array having a magnetic pole orientation opposite to a magnetic pole orientation of an adjacent magnet in the second array. The first array is aligned with respect to the second array such that magnetic fields emitted by the first array and second array generate a magnetic flux gradient profile extending through the channel. An absolute value of the profile includes a first maximum and a second maximum that bound a local minimum. The local minimum is located within the microfluidic channel or less than 5 mm away from a wall of the microfluidic channel. Methods of using the new devices are also described.

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.