In China, researchers studying the burial site of one of the world's most well-preserved mummies also unearthed what's ...

NIH’s SMaHT Network will chart trillions of somatic mutations to reveal how our DNA changes over a lifetime. In a nutshell ...

Objective: The purpose of this work is to study whether the active state and species of biological tissues can influence changes in their dielectric properties. Methods: In this paper, the dielectric ...

Findings could inform the design of artificial tissues and organs, presenting a potential route for delivering nutrients or ...

The type I collagen monomer is one of nature’s most exquisite and prevalent structural tools. Its 300 nm triple-helical motifs assemble into tough extracellular fibers that transition seamlessly ...

Water makes up around 60% of the human body. More than half of this water sloshes around inside the cells that make up organs and tissues. Much of the remaining water flows in the nooks and ...

With the aid of a 3D printer, researchers at Uppsala University have succeeded in creating a model that resembles human nerve tissue. The model, which can be cultured from the patient's own cells ...

The first phase of the Human Tissue Act 2024 is due to come into operation from today, meaning everybody will be considered an organ donor unless they opt-out or are included in a so-called ...

Decellularization is one of the promising techniques in tissue engineering used to create a biological scaffold for subsequent repopulation with the patient’s own cells. This study aims to compare two ...