Cell number and viability matter from biological research to bioprocessing. So, scientists keep working on better ways to monitor these features of cell cultures. One promising approach comes from ...

Most cells in the human body exist in complex three-dimensional environments, yet they are still commonly studied on flat plastic dishes. These two-dimensional cultures distort cell behavior, limiting ...

Accurately counting viable cells in a sample is crucial for various biological assays, including normalization and assessing drug impacts on cell proliferation for cancer research. Regular cell ...

Scientists use multi-day live cell assays to monitor cell growth, viability, and cytotoxicity when evaluating the effects of drug treatment. However, maintaining consistent cell health over time ...

Researchers at MIT have developed a magnetically actuated mixing platform that integrates directly into standard extrusion 3D bioprinters.

Gas vesicles are among the largest known protein nanostructures produced and assembled inside microbial cells.

Accurately isolating individual cells from complex biological samples is essential for modern biomedical research, yet existing sorting technologies ...

Accurately isolating individual cells from complex biological samples is essential for modern biomedical research, yet existing sorting technologies ...

Efficient T-cell engineering is crucial for the success of CAR T-cell therapy research, but it requires multiple labor-intensive steps, including T-cell isolation, activation, and transduction.