Introduction: Restrictive mitral valve annuloplasty (RMA) for secondary mitral regurgitation (MR) might cause functional (mitral) stenosis, yet underlying pathophysiological mechanisms remain debated. Hypothesis: Diastolic restriction of the anterior leaflet (AL) opening, due to papillary muscle tethering, plays a key role in the inflow obstruction after RMA. Increasing AL opening during exercise is associated with greater mitral valve area (MVA). Methods: Consecutive RMA patients (n=39, 63±11 years, 77% male) performed a symptom-limited (supine) bicycle exercise test with stepwise Doppler echocardiography and respiratory gas analysis. Diastolic AL opening angle (3-chamber view, Figure A), transmitral flow rate, mean transmitral gradient, and effective MVA were assessed at rest and during peak exercise. Results: At rest, effective MVA (1.5±0.4cm2) correlated moderately to the AL opening angle (68±10°) (r=0.4, p=0.014; Figure B). During exercise, effective MVA increased significantly to 2.0±0.5cm2 (p<0.001), with a stronger correlation to AL opening angle (r=0.6, p<0.001; Figure B). After stratification of the population into tertiles according to increase in AL opening angle during exercise (<=0°, 0-4° and >4° AL angle increase, respectively), a higher increase was significantly associated with greater effective MVA during exercise (p=0.013, Figure C). Patients with AL opening angle <69° at rest (median) and without dynamic AL angle increase of >4° (n=13) had a significantly lower maximal oxygen uptake compared to patients with AL opening angle at rest above the median or a greater dynamic AL angle increase with exercise (n=22) (VO2max 12.5±2.8 versus 16.4±4.7 mL/kg/min, p=0.005). Conclusions: Diastolic restriction of AL opening plays a key role in functional mitral stenosis after RMA for secondary MR. Increasing AL opening at rest, or better AL opening reserve during exercise, are associated with higher MVA and improved exercise capacity.