Despite major advances in medicine, wound care has changed little in a century. This research explores how natural electrical signals in injured skin guide healing. By developing devices that mimic these signals, scientists aim to accelerate recovery and improve treatment for chronic wounds through bioelectric control of cellular behaviour.

This research investigates using light-sensitive proteins to control cardiac electrical activity and treat arrhythmias. By precisely guiding heart rhythms with light rather than drugs or shocks, the study identifies proteins capable of suppressing dangerous premature signals, offering a reversible, non-invasive alternative to current heart disease treatments.

Electrical signals in the body depend on ion channels that regulate salt movement across cell membranes. When these channels malfunction, diseases like epilepsy and heart arrhythmias can occur. This research decodes how faulty ion channels work, revealing potassium-based mechanisms that could restore electrical signaling and guide new therapies.