This research investigates whether weight loss from the GLP-1 drug semaglutide includes loss of muscle mass. Using an obesity mouse model and direct muscle measurements, the study found significant muscle loss in females but not males. The findings highlight important sex differences and the need to evaluate body composition, not just weight loss.
This research investigates how Type 1 diabetes affects bone development during childhood and adolescence. Using high-resolution bone imaging and blood glucose data, the study explores whether blood sugar levels, variability, and disease duration influence bone health. Early findings suggest that diagnosis closer to puberty may be associated with lower bone density.
This research develops an AI model that combines thyroid ultrasound imaging with genetic testing to improve diagnosis of indeterminate thyroid nodules. By integrating molecular and imaging data, the model helps distinguish benign from cancerous nodules more accurately, reducing unnecessary surgeries and improving clinical decision-making for thyroid cancer patients.
This research investigates the genetic mechanisms underlying polycystic ovary syndrome (PCOS), a condition affecting one in ten women and the leading cause of female infertility. By studying thousands of genetic variants across multiple cell types, the project aims to identify the biological causes of PCOS and develop targeted treatments.