In a study published in Nature Biomedical Engineering, scientists of Harvard University, in collaboration between SEAS, Wyss, Boston Children's Hospital and the Harvard Stem Cell Institute (HSCI), ...

Harvard University researchers have bioengineered a three-dimensional model of a human left heart ventricle that could be used to study diseases, test drugs and develop patient-specific treatments for ...

A tissue-engineered scale model of the human ventricle made of nanofibrous scaffolds and human-stem-cell-derived cardiomyocytes enables the modelling of arrhythmia. Parker and co-authors applied a ...

The heart is a complex organ with a simple purpose – pump blood in and pump it out again. It does this through an interconnected network of rectangular heart cells called cardiomyocytes that pump ...

Heart disease - the leading cause of death in the U.S. - is so deadly in part because the heart, unlike other organs, cannot repair itself after injury. That is why tissue engineering, ultimately ...

Scientists have implicated two microRNAs in the biological processes that underlie the ventricle enlargement observed in models of schizophrenia. Enlarged cerebral ventricles are found in 80% of ...

Researchers have bioengineered a three-dimensional model of a human left heart ventricle that could be used to study diseases, test drugs and develop patient-specific treatments for heart conditions ...

Bioengineers build a scale model of a heart ventricle that beats, survives for months in the lab Harvard University researchers have bioengineered a three-dimensional model of a human left heart ...

Harvard University researchers have bioengineered a three-dimensional model of a human left heart ventricle that could be used to study diseases, test drugs and develop patient-specific treatments for ...