James Dodd is a Professor and Honorary Consultant in Respiratory Medicine at the University of Bristol.
He is deputy lead for the BRC’s respiratory disease theme. He also leads the exacerbation prediction and aerosol emissions workstream.
He is clinical lead for the regional specialist NHS Asthma & COPD services and director of the airways research group, within the Academic Respiratory Unit which delivers interdisciplinary translational research in aerosol science, digital health, medical humanities and integrative epidemiology.
Saliva biomarkers in chronic obstructive pulmonary disease exacerbation
Theme Respiratory disease
Workstream Exacerbation prediction and aerosol emissions
Lung development in early life and respiratory diagnosis and treatment
Themes Respiratory disease Translational data science
Workstream Exacerbation prediction and aerosol emissions
Investigating the link between asthma and mental health in children
Themes Mental health Respiratory disease
Workstream Exacerbation prediction and aerosol emissions
Investigating the link between asthma, brain inflammation and MRI changes
Themes Mental health Respiratory disease
Workstream Exacerbation prediction and aerosol emissions
Exploring impact of mepolizumab treatment for asthma on brain structures and wellbeing
Theme Respiratory disease
Workstream Exacerbation prediction and aerosol emissions
Exploring the clinical and health economic impact of the myCOPD app
Theme Respiratory disease
Workstream Exacerbation prediction and aerosol emissions
Sensing, Prediction, and Alerts in COPD Exacerbations (SPACE) Study III
Theme Respiratory disease
Workstream Exacerbation prediction and aerosol emissions
Sensing, Prediction and Alerts in COPD Exacerbations (SPACE) Study II
Theme Respiratory disease
Workstream Exacerbation prediction and aerosol emissions
Sensing, Prediction and Alerts in COPD Exacerbations (SPACE) Study I
Theme Respiratory disease
Workstream Exacerbation prediction and aerosol emissions
BREATHE study
Theme Respiratory disease
Workstream Exacerbation prediction and aerosol emissions