Aims : aim: to characterize flow velocity wave patterns in the ascending aorta with age and their use with central (carotid) pressure waves
Aims : To compare different methods of transit time calculation and consequently aortic PWV estimation from 4D MRI. Three methods are used t
Aims : To understand relationship between fitness and grey matter volume(GMV), cerebral blood flow(CBF) and cerebrovascular reactivityC(VR)
Aims : To estimate local biomechanical and hemodynamic biomarkers related to proximal aortic stiffness, by combining cardiovascular magnetic
Aims : This study is a comparison of efficiency between a new transit time estimator (MSeg) for PWV compared with three previous methods. Δt
Aims : To study if cardiac index could be estimated from one single phase contrast aortic flow acquisition. A single PC aortic acquisition c
Aims : Accurate estimates of aortic distensibility can be obtained from both SSFP and PC acquisition throughout the cardiac cycle. Accurate
Aims : To study the accuracy in the estimation of the aortic lumen area and distensibility obtained from SSFP and Phase Contrast MR sequence
Aims : The stiffness of the aortic wall was evaluated from morphological and hemodynamic MR data. Authors : A. Dogui et al. Clinical Applica
Aims : Evaluate ascending aorta flow alterations from MRI velocity data and their associations with age and LV remodeling. Local indices of
Aims : To estimate parameters related to BF and FF in the AA in healthy subjects using 2D PC-CMR data and evaluate their relationships with
Aims : To determine the changes in LV geometry associated with aortic pulse wave velocity using 3D cardiac imaging of the heart. There is a
Aims : To determine the relationship between pulmonary artery stiffness and both right ventricular mass and function with cardiac magnetic r
Aims : Non-invasively estimate aortic impedance indices from MR and tonometric data. Authors : Bargiotas I, Bollache E, Mousseaux E, Giron A
Aims : To investigate the efficiency of a new method to estimate transit time from CMR velocity curves. Arch‐PWV estimated with CMR using t
Authors : Ohyama Y, Redheuil A, Kachenoura N, Ambale Venkatesh B, Lima JAC, Clinical Application : Vascular aging Country : USA Date Publica