Imperial College London

Dr Justin E Davies

Faculty of MedicineNational Heart & Lung Institute

Clinical Research Fellow
 
 
 
//

Contact

 

+44 (0)20 7594 1024justin.davies

 
 
//

Location

 

International Centre for Circulatory HealthBlock B Hammersmith HospitalHammersmith Campus

//

Summary

 

Collaborators

Prof Kim Parker, Imperial College

Guest Lectures

Caution using brachial systolic pressure to calibrate radial tonometric pressure waveforms: lessons from invasive study, European Society of Hypertension, OSLO, 2010

Developement and application of wave intensity in the large arteries and coronary arteries, Coronary Collateralisation Conference, Sils-Maria, Switzerland, 2010

Development of wave intensity analysis from bench to clinical tool, Imperial College, London, 2009

Effects of augmentation of coronary blood flow from waves travelling-back from the proximal aorta, World Congress of Bioengineering, Munich, Germany, 2009

Augmentation of coronary blood flow in systole by reflected waves in the proximal aorta, High Blood Pressure Research Council of Australia, Melbourne, Australia, 2008

Importance of the aortic reservoir in determining the shape of the arterial pressure waveform- the forgotten lessons of Frank, Artery Research, Prague, 2007

Developing new technologies to clinical applications, Imperial College, London, 2007

Effect of nitrate administration on wave speed propagation in the human coronary artery, Japan Society of Ultrasonics in Medicine, Tokyo, 2005

Effects of Left Ventricular Hypertrophy on Human Coronary Artery Haemodynamics, Japan Society of Ultrasonics in Medicine, Tokyo, 2005

"The push-me-pull-you" of coronary haemodynamics. , Munich, August, 2006, 5th World Congress of Biomechanics, Munich, 2006

Research Student Supervision

Petraco,R, A new scanning technique to diagnose obstruction in the arteries of the heart

Broyd,C, Acute haemodynamic changes occuring following percutaneous aortic valve replacement

Sen,S, Systematic Assessment of Competitive Flow within Coronary Artery Bypass Grafts by Wave Intensity