Three-dimensional multicellular human liver model: For the first time, a 3D human organoid model, developed with liver tissue ...

As rates of obesity, high blood pressure, type 2 diabetes and sleep apnea increase, cases of advanced chronic liver disease ...

Scientists from Uppsala University and several other research institutions have created a personalized human liver model that can significantly improve the diagnosis and treatment of diseases such as ...

Massachusetts Institute of Technology (MIT), engineers developed a new liver tissue model to help reveal the stages of liver regeneration in hopes to help those individuals with liver disease, ...

Mayo Clinic model doubles liver disease detection by analyzing ECG data to identify advanced chronic liver disease earlier in asymptomatic patients.

A team at Baylor College of Medicine and other institutions has developed a novel mouse model that reproduces many key features of human non-alcoholic fatty liver disease (NAFLD), a little-understood ...

A 3D liver model was engineered by a team of researchers, that accurately replicates the connection between liver cells (hepatocytes) and scarring cells (stellate cells) in the condition of fibrosis.

Researchers from Miguel Hernández University of Elche (UMH) in Spain have identified an effective strategy to reduce ...

Periportal assembloid, with the three component cell types visualized: cholangiocytes in pink, portal fibroblasts in green, and hepatocyte nuclei in blue; all cell borders are visualized in white. New ...

The liver is the only internal organ that can regenerate itself. Remarkably, even if 70 percent of the liver is removed, its tissue can regrow into a full-sized organ within a matter of months. By ...