Recent studies have demonstrated that pulmonary artery diastolic (PAD) pressure can be measured from a transducer positioned in the right ventricle (RV) based on the finding that PAD and RV pressures are equal at the time of pulmonary valve opening, which is associated with the time of maximum positive rate of pressure development (dP/dtmax) in the ventricle. The objective of this study was to assess the correlation between estimated PAD (ePAD) pressure, obtained through a RV transducer, and actual PAD (aPAD) pressure in patients with heart failure who have abnormal hemodynamics, reduced systolic function, and variable degrees of mitral regurgitation (MR) and tricuspid regurgitation (TR). Simultaneous measurements of pulmonary artery and RV pressures were obtained with a high-fidelity Millar catheter (Millar Instruments, Houston, TX) in 10 patients with New York Heart Association class III-IV heart failure who were being evaluated for cardiac transplantation. The overall correlation between ePAD and aPAD pressures was .92 (R2 = .878). This was not significantly different during the Valsalva maneuver (r = .96, R2 = .943), submaximal bicycle exercise (r = .87, R2 = .756), or infusions of dobutamine and nitroglycerin (r = .82, R2 = .730). The overall average difference between the average ePAD (24.6 +/- 7.0 mmHg) and aPAD (23.6 +/- 7.0 mmHg) pressures was 1.0 +/- 3.4 mmHg. The average difference between the two pressures in patients with mild to severe MR or TR was not different compared to those patients with no or trace MR or TR. The estimation of PAD pressure from an RV transducer is valid in patients with heart failure who have abnormal hemodynamics, reduced systolic function, and variable degrees of MR and TR. This correlation was observed at rest and during several provocative maneuvers. These data will be important for the development of a chronic, implantable hemodynamic monitor for patients with heart failure.
[1]
D. Reynolds,et al.
Measurement of pulmonary artery diastolic pressure from the right ventricle.
,
1995,
Journal of the American College of Cardiology.
[2]
A. Wechsler,et al.
Dynamic right ventricular dimension. Relation to chamber volume during the cardiac cycle.
,
1986,
The Journal of thoracic and cardiovascular surgery.
[3]
D. Bresnahan,et al.
Initial experience with an implantable hemodynamic monitor.
,
1996,
Circulation.
[4]
L. Rydén,et al.
Monitoring of pulmonary arterial diastolic pressure through a right ventricular pressure transducer.
,
1995,
Journal of cardiac failure.
[5]
P. Poole‐Wilson,et al.
Pulmonary artery pressure and activities in chronic heart failure
,
1990
.
[6]
W. H. Herbert,et al.
The Gradient in Pressure Across the Pulmonary Vascular Bed During Diastole
,
1966,
Circulation.
[7]
B. Jenkins,et al.
Evaluation of Pulmonary Arterial End‐Diastolic Pressure as an Indirect Estimate of Left Atrial Mean Pressure
,
1970,
Circulation.