The presently disclosed subject matter provides a cell culture evaluation system including a measurement unit, a first storage unit, a second storage unit, an evaluation unit and an output unit, wherein: the measurement unit includes a sensor that acquires evaluation target data about motion or a state of a culture tool; the first storage unit stores the evaluation target data; the second storage unit stores reference data; the evaluation unit compares the evaluation target data with the reference data so as to evaluate an execution state of a cell culture process; and the output unit outputs an evaluation result created by the evaluation unit.

The present invention relates to the use of online biomass capacitance monitoring in cultures as a way to control the growth of cells through the use of a temperature control loop. In certain embodiments, a biomass capacitance probe is used to measure the cell density, and a predetermined growth curve is used to adjust the temperature in the culture.

An apparatus and method for producing a bacterial cellulose composite having a core-shell structure by dynamic fermentation are described. The apparatus comprises a fermentation culture container and two rollers and two heating guide plates arranged in the fermentation culture container. The apparatus can realize dynamic fermentation and coating, and can obtain a bacterial cellulose composite material with controllable shape and size, good biocompatibility and safety.

The present disclosure relates to an integrated methanol synthesis and fermentation system for the production of whole cells and biomolecules, and methods of using the same. In one embodiment, a system comprises a methanol synthesis apparatus adapted to produce unrefined methanol; a mixing apparatus adapted to receive unrefined methanol from the methanol synthesis apparatus; and a metering apparatus having at least one first input port in communication with mixing apparatus and at least one second output port in communication with a fermentation vessel.

Devices for treatment of cells are disclosed. The devices include an elongated housing and at least one hollow fiber semi-permeable membrane positioned within the housing having a plurality of pores dimensioned to prevent passage of the cells to be treated. Systems for treatment of cells including the device are disclosed. Methods of treating cells, including transducing cells and activating cells, are also disclosed. The methods include introducing a biosample with cells to be treated into the device, introducing media to suspend and release treated cells into the device, and discharging the treated cells from the device.

A magnetic-field generator (10) is provided to be used in construction of a cell sheet (12), and include s a magnetic circuit assembly (24) configured to generate a magnetic field for the construction of the cell sheet (12) using magnetic force caused by the magnetic field wherein the magnetic force is substantially transverse to a plane defined by the cell sheet (12), and a power control system (44) configured to generate and control electric power to magnetically charge the magnetic circuit assembly (24) using the electric power.

A three-dimensional (3D) microelectrode array device for in vitro electrophysiological applications includes a substrate and micro vias extending from the bottom face to the top face of the substrate. A microneedle at each micro via extends from the bottom face upward beyond the top face and forms a hypodermic microneedle array on the top face. Metallic traces on the bottom face interconnect the hypodermic microneedles to form the 3D microelectrode array. A microheater is positioned on the bottom face of the substrate. Microfluidic ports may be formed at the substrate. Interdigitated electrodes may be formed at the substrate.

The present invention relates to a flatbed air-liquid interface exposure module for exposing a plurality of cells at an air-liquid interface to nanoparticles, the flatbed air-liquid interface exposure module comprising a moisturizing section, an exposure section, and an aerosol duct. Further provided are related systems and methods.

A device for treatment of cells with particles is disclosed. The device includes a semi-permeable membrane positioned between two plates, the first plate defining a first flow chamber and comprising a port, a flow channel, a transverse port, and a transverse flow channel, the first flow chamber constructed and arranged to deliver fluid in a transverse direction along the first side of the semi-permeable membrane, the second plate defining a second flow chamber and comprising a port. A method for transducing cells is disclosed. The method includes introducing a fluid with cells and viral particles into a flow chamber adjacent a semi-permeable membrane such that the cells and the viral particles are substantially evenly distributed on the semi-permeable membrane. The method also includes introducing a recovery fluid to suspend the cells and the viral particles, and separating the cells from the viral particles. A method of activating cells is disclosed.

An algae cultivation system may include: a plurality of panels within a cultivation container, positioned along a first axis perpendicular to the gravitational force, wherein a cultivation volume is created between each pair of panels, and wherein the cultivation volumes are fluidly coupled so as to allow horizontal flow therebetween along the first axis; at least one first sparger, to distribute a first fluid into the container at a first operating flow rate; at least one second sparger, to distribute a second fluid into the container at a second operating flow rate; and at least one controller, to control the first operating flow rate and the second operating flow rate. The first operating flow rate may be adapted to allow turbulent mixing the algae in the cultivation container, and the second operating flow rate may be adapted to allow assimilation of materials in a liquid in the cultivation container.