Korean Circ J.  2000 Mar;30(3):310-317. 10.4070/kcj.2000.30.3.310.

Optimally Timed Rate-adaptive Atrioventricular Delay in AV Sequential Pacing

Abstract

BACKGROUND: Although the net atrioventricular compliance can be obtained by invasive catheterization (Ccath) in mitral stenosis (MS), feasibility of noninvasive echocardiographic calculation of the compliance (Cecho) and its hemodynamic significance were not tested.
METHODS
Using valve area by 2D planimetry (A2D) and deceleration slope (dv/dt) of transmitral velocity decay in continuous wave Doppler echocardiographic tracing, Cecho was defined as -A2D/(gamma dv/dt), which was compared with Ccath obtained directly during the catheterization in 30 MS patients with sinus rhythm. Exercise Doppler echocardiography with symptom-limited treadmill was performed in 66 patients with moderate to tight MS: mean mitral gradient (MG) and peak pressure gradient of tricuspid regurgitation (PGTR) at baseline and immediately after exercise were obtained using continuous wave Doppler echocardiographic tracing. Hemodynamic variables including Cecho, MG, PGTR and mitral valve area were analyzed to determine the association with patients' exercise tolerance.
RESULTS
Cecho in 30 patients with tight MS (valve area 0.9+/-0.2 cm 2) was 4+/-1 ml/mmHg (2-7 mmHg), which showed a significant correlation with Ccath (r=0.48, p=0.01). Exercise time in 66 patients with moderate to tight MS showed significant negative correlation with resting MG, resting and postexercise PGTR, and positive correlation with Cecho: exercise time in those patients did not show any significant correlation with resting valve area. In multivariate analysis, Cecho and postexercise PGTR were independent factors determining exercise time in MS.
CONCLUSIONS
The net atrioventricular compliance in MS can be calculated by noninvasive echocardiography, and it is an important hemodynamic factor determining exercise tolerance in MS.

Keyword

Mitral stenosis; Compliance; Exercise tolerance; Echocardiograph

MeSH Terms

Catheterization
Catheters
Compliance
Deceleration
Echocardiography
Echocardiography, Doppler
Exercise Tolerance
Hemodynamics
Humans
Mitral Valve
Mitral Valve Stenosis
Multivariate Analysis
Tricuspid Valve Insufficiency
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