Utilizing fractal patterns similar to those created by lightning strikes, researchers have created a network of microchannels that could advance the field of tissue engineering by serving as a ...

New Rochelle, NY, October 17, 2018--A new study presents a novel method of using a microfluidic flow cell array to achieve precise and reproducible control of cell deposition onto engineered tissue ...

A method has been created for 3-D bioprinting thick vascularized tissue constructs composed of human stem cells, extracellular matrix, and circulatory channels lined with endothelial blood vessel ...

An "out-of-this-world" project has the potential to transform the future of tissue engineering and liver transplantation through innovative research conducted aboard the International Space Station ...

To help restore damaged bone, researchers are developing polymer scaffolds that can be implanted in the body to support the growth of new tissue. Poly(propylene fumarate), or PPF, is one of the few ...

Before scientists develop the bioengineered tissue of tomorrow for treating pulmonary diseases, they need to identify the best methods for growing tissue for artificial trachea and lungs in ...

University of Melbourne researchers have developed a fast, inexpensive and scalable method for engineering blood vessels from natural tissue. Co-led by ARC Future Fellow Associate Professor Daniel ...

New Rochelle, NY, May 1, 2017--Researchers have developed a new model to analyze tissue engineered cartilage that allows for the use of a single method to assess functional tissue mechanics in ...

An interdisciplinary team of researchers at the University of Alabama at Birmingham has developed a new method of surface engineering polymer soft-materials that has potential to accelerate ...

We know our organs are supported by blood. We know that that blood is delivered to our various cells through a network of blood vessels. What we don’t know is how to create a fine three-dimensional ...