A research team has identified the transcription factor Lhx2 (LIM homeobox protein 2) as a key regulator in hepatic stellate ...

Background Treatment strategies for Crohn’s disease (CD) suppress diverse inflammatory pathways but many patients remain ...

Bioprinting offers a host of benefits that researchers continue to explore. It utilizes a combination of living cells, bio-inks, and 3D printing methods to create complex structures like organs or ...

Cancer models developed with 3D bioprinting technology allow for rapid evaluation of individual drug responses.

XoZymes replaces traditional chemical production methods with an approach that integrates widely available feedstocks like sugar and biomass with advanced enzymes engineered to thrive outside living ...

An allogeneic stem cell-derived transplant, OPC1 helps restore or increase the functional activity in SCI patients. It is tailored to replace the spinal cord cells that are either ...

By fusing circular dichroism with high-resolution microspectroscopy and microscopic imaging, this cutting-edge technology is ...

A novel 3D bioprinted gastric cancer model using patient-derived tissues predicts drug responses, enhancing personalized ...

This important study focused on characterizing clonally derived MSC populations from the synovium of normal and osteoarthritis (OA) patients, demonstrating their potential to regenerate cartilage in ...

A collaborative research team led by Professor Jinah Jang from the Department of Mechanical Engineering and the Department of ...

A collaborative research team led by Professor Jinah Jang from the Department of Mechanical Engineering and the Department of Creative IT Engineering ...

Scientists have successfully developed a gastric cancer model using 3D bioprinting technology and patient-derived cancer tissue fragments. This innovative model preserves the characteristics of actual ...