In "remarkable" work, a patch of engineered heart muscle cells was used to strengthen a patient's heart before transplant.

This biologically inspired platform makes it possible to build living human marrow tissue that can generate functional human ...

The researchers engineered millimeter-sized cardiac tissues from healthy adult human stem cells, matured them using metabolic ...

Discover how light-controlled ink in bioprinted tissues offers a non-invasive method for heart repair, revolutionizing ...

Researchers have revealed novel sequence-structure-property relationships for customizing engineered living materials (ELMs), enabling more precise control over their structure and how they respond to ...

With the help of 3D printing, these engineered tissues could be shaped to fit precisely, offering new solutions for treating birth defects, trauma and various cartilage diseases." Dr. Franz Leydig ...

As the most important muscle in our body, any serious issues with our heart are considered critical and reason for ...

This PhD thesis addresses the urgent need for better therapies by developing advanced in vitro models and engineered heart tissues to better simulate human heart physiology and pathology. Through the ...

Researchers from Mass General Brigham and collaborating institutions have developed a non-invasive approach to manipulate cardiac tissue activity by using light to stimulate an innovative ink ...

Here, we discuss the most promising approaches specific to tissue-engineered blood vessels and briefly introduce our recent clinical results. The unique regulatory, reimbursement and production ...

today announced an update of plans for the commercial launch of Symvess (acellular tissue engineered vessel-tyod) for extremity arterial injury. Humacyte is responding to requests for quotations ...