New Bioelectronic Mesh Can Grow with Tissues for Comprehensive

This tool is the first that can measure both mechanical movement and electrical signal in vitro using a single sensor

New Bioelectronic Mesh Can Grow with Tissues for Comprehensive Heart Monitoring

Bionic' Pacemaker Reverses Heart Failure

Tools and Techniques for the Life Science Laboratory

Informatics Solutions to Increase Efficiency and Performance in Molecular Workflows

Researchers Find New Approach to Treating Cardiovascular Diseases

Recent advances in tailoring stimuli-responsive hybrid scaffolds for cardiac tissue engineering and allied applications - Journal of Materials Chemistry B (RSC Publishing) DOI:10.1039/D3TB00450C

University of Massachusetts Amherst Author Profile

TRiCares Announces Successful Implantation of Minimally Invasive Topaz Tricuspid Heart Valve Replacement System in Patient with a Pacemaker

UMass Amherst Engineers Create Bioelectronic Mesh Capable of Growing with Cardiac Tissues for Comprehensive Heart Monitoring

Switchable' bispecific antibodies pave way for safer cancer treatment