This research quantitatively demonstrates disparities in healthcare quality experienced by transgender patients. Using objective clinical quality measures rather than personal testimony alone, it shows transgender patients receive recommended treatments less often. Encouragingly, providers with greater experience treating transgender patients deliver more equitable care, highlighting the importance of education and clinical exposure.

This research develops innovative three-dimensional "daisy" particle structures to improve inhaled medicines. Using Isothermal Dry Particle Coating, it prevents fine drug particles from clumping, ensuring they reach the lungs effectively. The work aims to improve inhaler performance and treatment for the 300 million people worldwide living with respiratory diseases.

This research develops a physics-based method for measuring lung elasticity from medical imaging to predict which emphysema patients will benefit from lung valve treatment. By creating detailed elasticity maps, the work aims to improve treatment selection, enhance patient outcomes, and provide new quantitative tools for assessing lung health.