Researchers developed bioengineered lymphatic tissue that replaced missing lymph nodes in mice, with potential to treat ...

In recent years, there have been tremendous advances in tissue engineering, the field of biomaterials research and development that combines living cells with 3D microstructures and biologically ...

Cardiovascular Reparative Medicine and Tissue Engineering (CRMTE) aims to develop future technologies and therapeutic strategies that will serve as treatment for cardiovascular disease. CRMTE includes ...

Boston Children's Hospital scientists have unveiled a five-day approach to generate functional vascular organoids capable of supporting blood flow and in vivo engraftment. Blood vessels are the living ...

These fields aim to facilitate healing and restore lost function in damaged or diseased tissues and organs by integrating scaffolds, cells, and biological signaling molecules. This combination aims to ...

Organ failure impacts millions of patients each year and costs hundreds of billions of US Dollars. Over the last 30 years, scientists have utilized a combination of tools, methods, and molecules of ...

3D: three-dimensional; GelMA: methacryloyl gelatin; ECM: extracellular matrix; HA: hyaluronic acid; β-CD: β-cyclodextrin; PEDOT: poly(3,4-ethylenedioxythiophene ...

In research that could shed light on the growth and formation of complex tissue architectures, Brown University engineers ...

It is relatively easy to grow cells in the lab but turning them into realistic models of human tissue is harder. This requires creating an environment that closely mirrors the conditions in the body’s ...

A working bladder is something most people take for granted. “Peeing is generally such a monotonous, uneventful function, but for me, it’s a painful, eye-watering experience” says Becca Rabizadeh.

Johns Hopkins biomedical engineers unveil Back-Illumination Tomography (BIT), a high-speed microscope that provides unprecedented, real-time views of living tissue to accelerate patient care and ...