Bioelectronic Mesh Grows With Cardiac Tissues for Comprehensive

Researchers have created a bioelectronic mesh embedded with graphene sensors that can record the electrical signals and movements of cardiac tissue at the same time without affecting its operation.

Electroactive biomaterials synergizing with electrostimulation for cardiac tissue regeneration and function-monitoring - ScienceDirect

New evidence explains how warming-up enhances muscle performance

Nanoenergy Advances, Free Full-Text

Materials and design strategy of an elasto-conductive epicardial mesh.

Insertable Cardiac Monitor with World's Longest Battery Life to

Heart-on-a-chip systems with tissue-specific functionalities for physiological, pathological, and pharmacological studies - ScienceDirect

Daily clinical lab news - mobile.

Injectable Hydrogel Repairs Cartilage Nonsurgically With

Graphene-integrated mesh electronics with converged multifunctionality for tracking multimodal excitation-contraction dynamics in cardiac microtissues

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

Daily radiology news - mobile.

Heart Monitor Combines Digital Auscultation and ECG - Critical

Heart-on-a-chip systems with tissue-specific functionalities for physiological, pathological, and pharmacological studies - ScienceDirect

Chronically stable recording across multiple brain regions a

IJMS, Free Full-Text