Cardiomyopathy in children: Can we rely on echocardiographic tricuspid regurgitation gradient estimates of right ventricular and pulmonary arterial pressure?

2016 ◽  
Vol 26 (7) ◽  
pp. 1406-1413
Author(s):  
Simon Lee ◽  
Irene D. Lytrivi ◽  
Zhanna Roytman ◽  
Hyun-Sook Helen Ko ◽  
Cheryl Vinograd ◽  
...  
Keyword(s):  
Pulmonary Artery ◽  
Right Ventricular ◽  
Pulmonary Artery Pressure ◽  
Tricuspid Regurgitation ◽  
Systolic Pressure ◽  
Poor Agreement ◽  
Right Ventricular Systolic Pressure ◽  
Right Heart ◽  
Ventricular Systolic Pressure ◽  
Modest Correlation

AbstractIntroductionAgreement between echocardiography and right heart catheterisation-derived right ventricular systolic pressure is modest in the adult heart failure population, but is unknown in the paediatric cardiomyopathy population.MethodsAll patients at a single centre from 2001 to 2012 with a diagnosis of cardiomyopathy who underwent echocardiography and catheterisation within 30 days were included in this study. The correlation between tricuspid regurgitation gradient and catheterisation-derived right ventricular systolic pressure and mean pulmonary artery pressure was determined. Agreement between echocardiography and catheterisation-derived right ventricular systolic pressure was assessed using Bland–Altman plots. Analysis was repeated for patients who underwent both procedures within 7 days. Haemodynamic data from those with poor agreement and good agreement between echocardiography and catheterisation were compared.ResultsA total of 37 patients who underwent 48 catheterisation procedures were included in our study. The median age was 11.8 (0.1–20.6 years) with 22 males (58% total). There was a modest correlation (r=0.65) between echocardiography and catheterisation-derived right ventricular systolic pressure, but agreement was poor. Agreement between tricuspid regurgitation gradient and right ventricular systolic pressure showed wide 95% limits of agreement. There was a modest correlation between the tricuspid regurgitation gradient and mean pulmonary artery pressure (r=0.6). Shorter time interval between the two studies did not improve agreement. Those with poor agreement between echocardiography and catheterisation had higher right heart pressures, but this difference became insignificant after accounting for right atrial pressure.ConclusionTransthoracic echocardiography estimation of right ventricular systolic pressure shows modest correlation with right heart pressures, but has limited agreement and may underestimate the degree of pulmonary hypertension in paediatric cardiomyopathy patients.

Controlled Pulmonary Artery Banding: A Novel Hydraulic Device to Increase Right Ventricular Systolic Pressure

CHEST Journal ◽  
2004 ◽  
Vol 126 (4) ◽  
pp. 884S
Author(s):  
Luis E. Santos-Martinez ◽  
Jose Gotes ◽  
Carlos Tena ◽  
Pedro Flores ◽  
Samuel Ramirez ◽  
...  
Keyword(s):  
Pulmonary Artery ◽  
Right Ventricular ◽  
Systolic Pressure ◽  
Pulmonary Artery Banding ◽  
Right Ventricular Systolic Pressure ◽  
Ventricular Systolic Pressure

Abstract 16574: Heart Failure Biomarkers (NT-proBNP, Gal-3, sST2) Correlate With Right Ventricular Systolic Pressure and Provide Insight to Poor CRT Response: A BIOCRT Substudy

Circulation ◽  
2015 ◽  
Vol 132 (suppl_3) ◽  
Author(s):  
Roderick C Deaño ◽  
Jackie Szymonifka ◽  
Qing Zhou ◽  
Jigar H Contractor ◽  
Zachary Lavender ◽  
...  
Keyword(s):  
Heart Failure ◽  
Right Ventricular ◽  
Systolic Pressure ◽  
Fold Increase ◽  
Left Ventricular ◽  
Cardiac Resynchronization ◽  
Cardiac Transplant ◽  
Right Ventricular Systolic Pressure ◽  
Ventricular Systolic Pressure ◽  
Crt Response

Objective: Patients with heart failure (HF) and pulmonary hypertension (PH) have worse outcomes after cardiac resynchronization therapy (CRT). The relationship of circulating HF biomarkers and right ventricular systolic pressure (RVSP) may provide insight to the mechanism between PH and poor CRT response. Methods: In 90 patients (age 65 ± 13, 78% male, EF 26 ± 8%, RVSP 44 ± 12 mmHg) undergoing CRT, we measured baseline RVSP by echocardiography and obtained peripheral blood samples drawn at the time of device implantation. We measured levels of established and emerging HF biomarkers (Table 1). CRT non-response was defined as no improvement of adjudicated HF Clinical Composite Score at 6 months. Major adverse cardiac event (MACE) was defined as composite endpoint of death, cardiac transplant, left ventricular assist device, and HF hospitalization within 2 years. Results: There were 34% CRT non-responders and 27% had MACE. Per 1 unit increase in log-transformed RVSP, there was an 11-fold increase risk of having CRT non-response (odd ratio [OR] 11.0, p=0.01) and over 5-fold increase of developing 2-year MACE (hazard ratio [HR] 5.8, p=0.02). When comparing patients with severe PH (RVSP>60 mmHg) to those without PH (RVSP < 35 mmHg), there was an 8-fold increase in CRT nonresponse (OR 8.4, p=0.03) but no difference in MACE (p=NS). RVSP was correlated with increased biomarker levels of myocardial stretch and fibrosis, but not myocardial necrosis (Table 1). Conclusions: Higher RVSP is associated with greater rates of CRT non-response and adverse clinical outcomes. The mechanistic association between severe PH and CRT nonresponse may be explained by the biomarker profile reflective of myocardial wall stretch and fibrosis.

Right ventricular pressure response to +GZ acceleration stress

1982 ◽  
Vol 53 (4) ◽  
pp. 908-913 ◽  
Author(s):  
J. E. Whinnery ◽  
M. H. Laughlin
Keyword(s):  
Right Ventricular ◽  
Diastolic Pressure ◽  
Vena Cava ◽  
Systolic Pressure ◽  
Ventricular Pressure ◽  
Miniature Swine ◽  
Right Ventricular Systolic Pressure ◽  
Ventricular Systolic Pressure ◽  
The Right ◽  
Acceleration Stress

Measurements of right ventricular pressure in miniature swine were made at +Gz levels from +1 through +9 Gz. Polyethylene catheters were chronically placed in the cranial vena cava of five 2-yr-old female miniature swine (35–50 kg). The catheters were large enough to allow the introduction of a Millar pressure transducer into the venous system for placement in the right heart. The animals were fitted with an abdominal anti-G suit, restrained in a fiberglass couch, and exposed to the various +Gz levels on a centrifuge while fully conscious and unanesthetized. Right ventricular pressure and heart rate were measured during and for 2 min following 30-s exposures to each level of +Gz stress. The maximum right ventricular systolic pressure observed during +Gz was 200 Torr at +5 Gz with the maximum diastolic pressure being 88 Torr observed at +5 Gz. Mean heart rates were 200–210 beats/min at all levels of +Gz greater than or equal to +3 Gz when the animal remained stable. Mean maximum right ventricular pressures during +Gz stress were observed to increase through +5 Gz (85 Torr) and to decrease at higher levels of +Gz, indicating that through +5 Gz there is at least a partial compensation during acceleration stress. Decompensation in response to the stress began to occur during acceleration above +5 Gz with all animals decompensating during +9 Gz.

The effect of endogenous estrogen on Doppler-estimated right ventricular systolic pressure during exercise

2012 ◽  
Vol 90 (10) ◽  
pp. 1364-1371
Author(s):  
Vicki N. Wang ◽  
Mavra Ahmed ◽  
Amelia Ciofani ◽  
Zion Sasson ◽  
John T. Granton ◽  
...  
Keyword(s):  
Blood Pressure ◽  
Menstrual Cycle ◽  
Right Ventricular ◽  
Systolic Pressure ◽  
Rate Pressure Product ◽  
Right Ventricular Systolic Pressure ◽  
Ventricular Systolic Pressure ◽  
Early Exercise ◽  
Endogenous Estrogen ◽  
Response To Exercise

We evaluated the effect of endogenous estrogen levels on exercise-related changes in right ventricular systolic pressure (RVSP) of healthy, eumenorrheic, sedentary women. Volunteers were studied at two separates phases of the menstrual cycle (LO and HI estrogen phases), exercised on a semi-supine ergometer with escalating workload and monitored continuously by 12-lead ECG and automated blood pressure cuff. At each exercise stage, Doppler echocardiography measurements were obtained and analyzed to determine RVSP. Fourteen subjects (age 24 ± 5) were studied. Exercise duration was significantly higher on the HI estrogen day, but no significant differences in hemodynamic response to exercise were found between the two study days. There were also no significant differences with respect to heart rate (HR) acceleration during early exercise, as well as resting and peak RVSP, HR, blood pressure, and rate pressure product. Doppler-estimated RVSP demonstrated a linear relationship to HR at a ratio of 1 mm Hg (1 mm Hg = 133.3224 Pa) for every 5 bpm (beats per minute) increase in HR. There were no differences in the slope of this relationship between HI and LO estrogen phases of the menstrual cycle. Our findings did not demonstrate any effect of endogenous estrogen levels on the modulation of the pulmonary vascular response to exercise in healthy women.

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