An international research team has found a simple method for growing lung tissue in the lab. These organoids could be used in diagnosis, drug development, and fundamental research. Laboratory studies ...

Someday, doctors would like to grow limbs and other body tissue for soldiers who have lost arms in battle, children who need a new heart or liver, and many other people with critical needs. Scientists ...

Michael Helmrath, MD, MS, surgical director of the Intestinal Rehabilitation Program at Cincinnati Children's, describes how researchers have successfully grown human intestinal tissue in mice, ...

Within our bodies, cells survive by being chatty: They rely on a network of blood vessels to communicate with one another and receive vital nutrients. Replicating this cell crosstalk in a lab is less ...

Has your research results or laboratory processes been bogged down by poor staining quality of histology slides? We all know that proper tissue processing is a key element to downstream staining ...

A research team based in Kumamoto University (Japan) has created complex 3D kidney tissue in the lab solely from cultured mouse embryonic stem (ES) cells. These organoids could lead the way to better ...

Jim Wells, PhD, Divisions of Developmental Biology and Endocrinology at Cincinnati Children's, explains how the first-time molecular generation of 3D human gastric organoids (hGOs) presents new ...

Laboratory of Tissue Biology and Therapeutic Engineering (LBTI) has the following research output in the current window (1 December 2024 - 30 November 2025) of the Nature Index. Click on Count to view ...

ISS National Lab-Sponsored Experiment Tests 3D Bioprinted Tissue for Growing Artificial Livers PR Newswire CAPE CANAVERAL, Fla., Aug. 20, 2025 Researchers to evaluate how microgravity affects ...

Do you have questions about Tissue Processing? Robin Fitzl, Senior Application Specialist at Leica Biosystems, has the answers! As part of her popular “Lessons from the Laboratory” series, Robin ...

In a small lab at the University of California, Santa Cruz, clusters of mouse brain cells have taken on a task normally reserved for computer algorithms: keeping a simulated pole balanced upright. The ...