SLC13A5 citrate transport disorder causes severe neonatal seizures due to disrupted citrate balance in the brain. This research uses mouse models to show excess citrate worsens seizures and explores gene replacement therapy to restore transporter function. Early results show reduced seizures, with human clinical trials beginning soon.

This research shows that doxorubicin disrupts immune signaling between the spleen and heart, priming inflammatory cells that worsen cardiac damage when hypertension develops later in life. Using a two-hit mouse model, the work reveals a heart–spleen axis and identifies immune cells as targets to protect childhood cancer survivors from heart failure.

This research develops one of the most advanced human-engineered brain models to better study Alzheimer’s disease and test treatments. Using microfluidic chips containing all key brain cell types, blood-vessel systems, and Alzheimer’s-model neurons, the project enables efficient drug testing, personalised disease modelling, and the possibility of replacing animal testing in the search for a cure.