Tissue engineering

Photo shows the open lattice of 3-D printed material, with materials having different characteristics of strength and flexibility indicated by different colors.

Tough biogel structures produced by 3-D printing

Stretchable, biocompatible hydrogels with complex patterning could be used in tissue engineering.

June 1, 2015

New materials to protect the brain

MIT graduate student Bo Qing studies synthetic gels that could be used in better equipment to protect against traumatic injuries.

March 24, 2015

Mechanically stimulating stem cells

MIT biological engineering graduate student Frances Liu is studying ways to alter mechanical properties of cell environments to produce desired chemical outputs.

March 20, 2015

Faculty highlight: Krystyn Van Vliet

MIT associate professor brings a materials scientist's understanding to biochemical behavior in stem cells and organ tissue.

March 18, 2015

Finding a needle in a haystack

New technique allows scientists to identify populations of rare stem cells in bone marrow.

October 6, 2014

Engineering new bone growth

Coated tissue scaffolds help the body grow new bone to repair injuries or congenital defects.

August 18, 2014

Marrying tissue engineering with systems biology

Linda Griffith combines in vitro models with deep molecular analysis to accelerate drug discovery.

January 31, 2014

Researchers unlock a new means of growing intestinal stem cells

Studying these cells could lead to new treatments for diseases ranging from gastrointestinal disease to diabetes.

December 1, 2013

<i>Plasmodium vivax</i> (red sphere) grows in engineered liver tissue developed by MIT researchers to study malaria. The blue spheres represent the nuclei of cells that make up the microscale liver tissue.

New way to target an old foe: malaria

Engineered liver tissue developed at MIT could help scientists test new drugs and vaccines.

July 17, 2013

MIT researchers have generated mature liver cells from induced pluripotent stem cells. In this image, the cell nuclei are stained blue. The green stain identifies liver cells, and the red spots represent mature liver cells.

A step closer to artificial livers

Researchers identify compounds that help liver cells grow outside the body.

June 2, 2013