MIT engineers have developed a noninvasive pacemaker that stimulates the heart using ultrasound. The design could one day ...

The alternative text for this image may have been generated using AI. In conclusion, we successfully characterised the human primary pacemaker at single cell resolution by employing a novel A.I.

Bio-pacemakers offer a potential alternative to electronic devices, yet their stable implementation at cellular and tissue levels remains unresolved. In this computational study, we aimed to ...

Scientists from the McEwen Centre for Regenerative Medicine, University Health Network, have developed the first functional pacemaker cells from human stem cells, paving the way for alternate, ...

HHMI Investigator Mark Krasnow and his colleagues conducted extensive phenotyping of hundreds of mouse lemurs, screening for anatomical and medical differences that could help locate the origins of ...

Scientists just unveiled the world’s tiniest pacemaker. Smaller than a grain of rice and controlled by light shone through the skin, the pacemaker generates power and squeezes the heart’s muscles ...

For the first time, scientists have succeeded in artificially mimicking the ion signaling of heart muscle cells. To succeed, researchers at LiU have used organic electronics based on conductive ...

Researchers mapped 442,239 single nuclei from nonfailing human hearts to chart how cardiac cells change from fetal ...