BACKGROUND: The decay of the pressure gradient across a stenotic mitral valve is determined by the size of the orifice and net AV compliance (C(n)). We have observed a group of symptomatic patients, usually in sinus rhythm, characterized by pulmonary hypertension (particularly during exercise) despite a relatively large mitral valve area by pressure half-time. We speculated that this discrepancy was due to low atrial compliance causing both pulmonary hypertension and a steep decay of the transmitral pressure gradient despite significant stenosis. We therefore tested the hypothesis that C(n) is an important physiological determinant of pulmonary artery pressure at rest and during exercise in mitral stenosis. METHODS AND RESULTS: Twenty patients with mitral stenosis were examined by Doppler echocardiography. C(n), calculated from the ratio of effective mitral valve area (continuity equation) and the E-wave downslope, ranged from 1.7 to 8.1 mL/mm Hg. Systolic pulmonary artery pressure (PAP) increased from 43+/-12 mm Hg at rest to 71+/-23 mm Hg (range, 40 to 110 mm Hg) during exercise. There was a particularly close correlation between C(n) and exercise PAP (r=-0.85). Patients with a low compliance were more symptomatic (P<0.025). Catheter- and Doppler-derived values for C(n), determined in 10 cases, correlated well (r=0.79). CONCLUSIONS: C(n), which can be noninvasively assessed, is an important physiological determinant of PAP in mitral stenosis. Patients with low C(n) represent an important clinical entity, with symptoms corresponding to severe increases in PAP during stress echocardiography.
BACKGROUND: The decay of the pressure gradient across a stenotic mitral valve is determined by the size of the orifice and net AV compliance (C(n)). We have observed a group of symptomatic patients, usually in sinus rhythm, characterized by pulmonary hypertension (particularly during exercise) despite a relatively large mitral valve area by pressure half-time. We speculated that this discrepancy was due to low atrial compliance causing both pulmonary hypertension and a steep decay of the transmitral pressure gradient despite significant stenosis. We therefore tested the hypothesis that C(n) is an important physiological determinant of pulmonary artery pressure at rest and during exercise in mitral stenosis. METHODS AND RESULTS: Twenty patients with mitral stenosis were examined by Doppler echocardiography. C(n), calculated from the ratio of effective mitral valve area (continuity equation) and the E-wave downslope, ranged from 1.7 to 8.1 mL/mm Hg. Systolic pulmonary artery pressure (PAP) increased from 43+/-12 mm Hg at rest to 71+/-23 mm Hg (range, 40 to 110 mm Hg) during exercise. There was a particularly close correlation between C(n) and exercise PAP (r=-0.85). Patients with a low compliance were more symptomatic (P<0.025). Catheter- and Doppler-derived values for C(n), determined in 10 cases, correlated well (r=0.79). CONCLUSIONS:C(n), which can be noninvasively assessed, is an important physiological determinant of PAP in mitral stenosis. Patients with low C(n) represent an important clinical entity, with symptoms corresponding to severe increases in PAP during stress echocardiography.
Authors: A Rossi; F L Dini; E Agricola; P Faggiano; G Benfari; P L Temporelli; C Cucco; L Scelsi; C Vassanelli; S Ghio Journal: J Echocardiogr Date: 2018-02-23
Authors: Maria Carmo P Nunes; Judy Hung; Marcia M Barbosa; William A Esteves; Vinicius T Carvalho; Lucas Lodi-Junqueira; Cirilo P Fonseca Neto; Timothy C Tan; Robert A Levine Journal: Circ Cardiovasc Imaging Date: 2013-10-04 Impact factor: 7.792
Authors: Maria Carmo P Nunes; Robert A Levine; Renato Braulio; Marcelo A Pascoal-Xavier; Sammy Elmariah; Nayana F A Gomes; Juliana R Soares; William A M Esteves; Xin Zeng; Jacob P Dal-Bianco; Livia S A Passos; Luiz G Passaglia; Victor T Ribeiro; Cláudio L Gelape; Paulo H N Costa; Lucas Lodi-Junqueira; Walderez Dutra; Timothy C Tan; Elena Aikawa; Judy Hung Journal: JACC Cardiovasc Imaging Date: 2020-09-16
Authors: Guilherme Rafael Sant'Anna Athayde; Bruno Ramos Nascimento; Sammy Elmariah; Lucas Lodi-Junqueira; Juliana Rodrigues Soares; Gabriel Prado Saad; Jose Luiz Padilha da Silva; Timothy C Tan; Judy Hung; Igor F Palacios; Robert A Levine; Maria Carmo Pereira Nunes Journal: Catheter Cardiovasc Interv Date: 2018-09-23 Impact factor: 2.692