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Noninvasive evaluation of pulmonary artery pressure during exercise: the importance of right atrial hypertension
M. Obokata, GC. Kane, H. Sorimachi, YNV. Reddy, TP. Olson, AC. Egbe, V. Melenovsky, BA. Borlaug
Language English Country Great Britain
Document type Journal Article, Research Support, N.I.H., Extramural
Grant support
R01 HL126638
NHLBI NIH HHS - United States
U01 HL125205
NHLBI NIH HHS - United States
R01 HL128526
NHLBI NIH HHS - United States
U10 HL110262
NHLBI NIH HHS - United States
NLK
Free Medical Journals
from 1994 to 18 months ago
Open Access Digital Library
from 1988-01-01
- MeSH
- Pulmonary Artery * diagnostic imaging MeSH
- Exercise MeSH
- Echocardiography, Doppler MeSH
- Humans MeSH
- Hypertension, Pulmonary * diagnostic imaging MeSH
- Echocardiography, Stress MeSH
- Check Tag
- Humans MeSH
- Publication type
- Journal Article MeSH
- Research Support, N.I.H., Extramural MeSH
INTRODUCTION: Identification of elevated pulmonary artery pressures during exercise has important diagnostic, prognostic and therapeutic implications. Stress echocardiography is frequently used to estimate pulmonary artery pressures during exercise testing, but data supporting this practice are limited. This study examined the accuracy of Doppler echocardiography for the estimation of pulmonary artery pressures at rest and during exercise. METHODS: Simultaneous cardiac catheterisation-echocardiographic studies were performed at rest and during exercise in 97 subjects with dyspnoea. Echocardiography-estimated pulmonary artery systolic pressure (ePASP) was calculated from the right ventricular (RV) to right atrial (RA) pressure gradient and estimated RA pressure (eRAP), and then compared with directly measured PASP and RAP. RESULTS: Estimated PASP was obtainable in 57% of subjects at rest, but feasibility decreased to 15-16% during exercise, due mainly to an inability to obtain eRAP during stress. Estimated PASP correlated well with direct PASP at rest (r=0.76, p<0.0001; bias -1 mmHg) and during exercise (r=0.76, p=0.001; bias +3 mmHg). When assuming eRAP of 10 mmHg, ePASP correlated with direct PASP (r=0.70, p<0.0001), but substantially underestimated true values (bias +9 mmHg), with the greatest underestimation among patients with severe exercise-induced pulmonary hypertension (EIPH). Estimation of eRAP during exercise from resting eRAP improved discrimination of patients with or without EIPH (area under the curve 0.81), with minimal bias (5 mmHg), but wide limits of agreement (-14-25 mmHg). CONCLUSIONS: The RV-RA pressure gradient can be estimated with reasonable accuracy during exercise when measurable. However, RA hypertension frequently develops in patients with EIPH, and the inability to noninvasively account for this leads to substantial underestimation of exercise pulmonary artery pressures.
Dept of Cardiovascular Medicine Mayo Clinic Rochester MN USA
Institute for Clinical and Experimental Medicine IKEM Prague Czech Republic
References provided by Crossref.org
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