https://www.selleckchem.com/products/sh-4-54.html This study determined 1) the interobserver agreement; 2) valvular flow variation; and 3) which variables independently predicted the variation of valvular flow quantification from 4-dimensional (4D) flow cardiac magnetic resonance (CMR) with automated retrospective valve tracking at multiple sites. Automated retrospective valve tracking in 4D flow CMR allows consistent assessment of valvular flow through all intracardiac valves. However, due to the variance of CMR scanners and protocols, it remains uncertain if the published consistency holds for other clinical centers. Seven sites each retrospectively or prospectively selected 20 subjects who underwent whole heart 4D flow CMR (64 patients and 76 healthy volunteers; aged 32 years [range 24 to 48 years], 47% men, from 2014 to 2020), which was acquired with locally used CMR scanners (scanners from 3 vendors; 2 1.5-T and 5 3-T scanners) and protocols. Automated retrospective valve tracking was locally performed at each site to quantify the valvular flow an CMR. Independently of locally used CMR scanners and protocols, valvular flow quantification can be performed consistently with automated retrospective valve tracking in 4D flow CMR. A novel tricuspid regurgitation (TR) grading system, using vena contracta (VC) width and effective regurgitant orifice area (EROA), was proposed and validated based on its prognostic usefulness. The clinical need of a new grading system for TR has recently been emphasized to depict the whole spectrum of TR severity, particularly beyond severe TR (massive or torrential). TR severity was characterized in 1,129 patients with moderate or severe secondary TR (STR). Recently proposed cutoff values of VC width were more effective in differentiating the prognosis of patients with moderate STR, whereas EROA cutoff values performed better in characterizing the risk of patients with more severe STR. Therefore, these 2 parameters were combined into a