Advanced deep learning technology has significantly improved the accuracy and efficiency of general image recognition tasks. Furthermore, its application to biological tissue and medical imaging has ...

During mouse development, embryonic-stage germ cells (EGCs) make crucial fate decisions, with female EGCs embarking on meiosis whereas male EGCs enter mitotic arrest until birth. Despite increasing ...

In a major leap forward for genetic and biomedical research, two scientists at the University of Missouri have developed a powerful new artificial intelligence tool that can predict the 3D shape of ...

Researchers at the Terasaki Institute for Biomedical Innovation (TIBI) have developed a technique that could help advance treatments in tissue engineering. The study, published in the journal Small, ...

A team of researchers has developed an innovative imaging platform that promises to improve our understanding of cellular structures at the nanoscale. This platform, called soTILT3D for ...

Researchers have developed a way to 3D print custom micrometer-sized structures directly into the interior of living cells. As reported in Advanced Materials, the investigators used their method to ...

A team from the Swiss Federal Institute of Technology in Lausanne has successfully created a human ear using volumetric 3D ...

New research tracks how cells prepare gene regulatory decisions that will define their fate during the earliest stages of ...

A new method developed at Baylor College of Medicine and collaborating institutions allows researchers to better understand how RNA works. The method, published in Molecular Cell, is a powerful ...

Attrition in the therapeutic pipeline can often be associated with the lack of translational efficacy from the pre-clinical phase to the clinic. Organoids demonstrate the significant potential to ...