posted on 2024-08-21, 20:44authored bySumin Kim, Jakyoung Lee, Won Gi Chung, Yeon-Mi Hong, Wonjung Park, Jung Ah Lim, Jang-Ung Park
Cardiovascular disease is a major public health issue,
and smart
diagnostic approaches play an important role in the analysis of electrocardiograms.
Here, we present three-dimensional, soft electrodes of liquid metals
that can be conformably attached to the surfaces of the heart and
skin for long-term cardiac analysis. The fine micropillar structures
of biocompatible liquid metals enable precise targeting to small tissue
areas, allowing for spatiotemporal mapping and modulation of cardiac
electrical activity with high resolution. The low mechanical modulus
of these liquid-metal electrodes not only helps avoid inflammatory
responses triggered by modulus mismatch between the tissue and electrodes,
but also minimizes pain when embedded in biological tissues such as
the skin and heart. Furthermore, in vivo experiments with animal models
and human trials demonstrate long-term and accurate monitoring of
electrocardiograms over a period of 30 days.