scholarly journals The Effects of Acute Fluid Loading on Plasma B-type Natriuretic Peptide Levels in a Septic Shock Patient

2005 ◽  
Vol 33 (4) ◽  
pp. 528-530 ◽  
Author(s):  
A. S. Mclean ◽  
G. Poh ◽  
S. J. Huang
Keyword(s):  
Intensive Care Unit ◽  
Septic Shock ◽  
Right Ventricular ◽  
Natriuretic Peptide ◽  
Fluid Loading ◽  
Clinical Context ◽  
Parallel Increase ◽  
The Right ◽  
And Function ◽  
Ventricular Dimensions

A 64-year-old female patient was admitted to a general intensive care unit with sustained hypotension resulting from severe sepsis. Her admission plasma B-type natriuretic peptide was elevated (407 pg/ml), and echocardiogram displayed normal ventricular dimensions and function. The right ventricular end-diastolic diameter increased with acute fluid loading, and this coincided with a parallel increase in B-type natriuretic peptide. Subsequent fluid depletion was accompanied by a reduction in both right ventricular end-diastolic diameter and B-type natriuretic peptide. The present case indicates that acute fluid loading may alter plasma B-type natriuretic peptide levels, and highlights the importance of taking the clinical context into account when interpreting these levels.

The Influence of Extreme Mixed Exertion Load on the Right Ventricular Dimensions and Function in Elite Athletes: A Tissue Doppler Study

2011 ◽  
Vol 28 (7) ◽  
pp. 753-760 ◽  
Author(s):  
Wojciech Krol ◽  
Wojciech Braksator ◽  
Jarosław D. Kasprzak ◽  
Marek Kuch ◽  
Artur Mamcarz ◽  
...  
Keyword(s):  
Right Ventricular ◽  
Elite Athletes ◽  
Tissue Doppler ◽  
Doppler Study ◽  
The Right ◽  
And Function ◽  
Ventricular Dimensions

Levels of brain natriuretic peptide in children with right ventricular overload due to congenital cardiac disease

2005 ◽  
Vol 15 (4) ◽  
pp. 396-401 ◽  
Author(s):  
Thomas S. Mir ◽  
Jan Falkenberg ◽  
Bernd Friedrich ◽  
Urda Gottschalk ◽  
Throng Phi Lê ◽  
...  
Keyword(s):  
Right Ventricle ◽  
Brain Natriuretic Peptide ◽  
Right Ventricular ◽  
Natriuretic Peptide ◽  
Cardiac Disease ◽  
Left Ventricular Pressure ◽  
Left Ventricular ◽  
Ventricular Pressure ◽  
Congenital Cardiac Disease ◽  
The Right

Objective:To evaluate the role of the concentration of brain natriuretic peptide in the plasma, and its correlation with haemodynamic right ventricular parameters, in children with overload of the right ventricle due to congenital cardiac disease.Methods:We studied 31 children, with a mean age of 4.8 years, with volume or pressure overload of the right ventricle caused by congenital cardiac disease. Of the patients, 19 had undergone surgical biventricular correction of tetralogy of Fallot, 11 with pulmonary stenosis and 8 with pulmonary atresia, and 12 patients were studied prior to operations, 7 with atrial septal defects and 5 with anomalous pulmonary venous connections. We measured brain natriuretic peptide using Triage®, from Biosite, United States of America. We determined end-diastolic pressures of the right ventricle, and the peak ratio of right to left ventricular pressures, by cardiac catheterization and correlated them with concentrations of brain natriuretic peptide in the plasma.Results:The mean concentrations of brain natriuretic peptide were 87.7, with a range from 5 to 316, picograms per millilitre. Mean end-diastolic pressure in the right ventricle was 5.6, with a range from 2 to 10, millimetres of mercury, and the mean ratio of right to left ventricular pressure was 0.56, with a range from 0.24 to 1.03. There was a positive correlation between the concentrations of brain natriuretic peptide and the ratio of right to left ventricular pressure (r equal to 0.7844, p less than 0.0001) in all patients. These positive correlations remained when the children with tetralogy of Fallot, and those with atrial septal defects or anomalous pulmonary venous connection, were analysed as separate groups. We also found a weak correlation was shown between end-diastolic right ventricular pressure and concentrations of brain natriuretic peptide in the plasma (r equal to 0.5947, p equal to 0.0004).Conclusion:There is a significant correlation between right ventricular haemodynamic parameters and concentrations of brain natriuretic peptide in the plasma of children with right ventricular overload due to different types of congenital cardiac disease. The monitoring of brain natriuretic peptide may provide a non-invasive and safe quantitative follow up of the right ventricular pressure and volume overload in these patients.

scholarly journals Genetic Analysis of Right Heart Structure and Function in 40,000 People

2021 ◽  
Author(s):  
James P. Pirruccello ◽  
Paolo Di Achille ◽  
Victor Nauffal ◽  
Mahan Nekoui ◽  
Samuel N. Friedman ◽  
...  
Keyword(s):  
Pulmonary Hypertension ◽  
Deep Learning ◽  
Right Ventricular ◽  
Congenital Heart ◽  
Left Ventricular ◽  
Structure And Function ◽  
Right Heart ◽  
Heart Chamber ◽  
The Right ◽  
And Function

The heart evolved hundreds of millions of years ago. During mammalian evolution, the cardiovascular system developed with complete separation between pulmonary and systemic circulations incorporated into a single pump with chambers dedicated to each circulation. A lower pressure right heart chamber supplies deoxygenated blood to the lungs, while a high pressure left heart chamber supplies oxygenated blood to the rest of the body. Due to the complexity of morphogenic cardiac looping and septation required to form these two chambers, congenital heart diseases often involve maldevelopment of the evolutionarily recent right heart chamber. Additionally, some diseases predominantly affect structures of the right heart, including arrhythmogenic right ventricular cardiomyopathy (ARVC) and pulmonary hypertension. To gain insight into right heart structure and function, we fine-tuned deep learning models to recognize the right atrium, the right ventricle, and the pulmonary artery, and then used those models to measure right heart structures in over 40,000 individuals from the UK Biobank with magnetic resonance imaging. We found associations between these measurements and clinical disease including pulmonary hypertension and dilated cardiomyopathy. We then conducted genome-wide association studies, identifying 104 distinct loci associated with at least one right heart measurement. Several of these loci were found near genes previously linked with congenital heart disease, such as NKX2-5, TBX3, WNT9B, and GATA4. We also observed interesting commonalities and differences in association patterns at genetic loci linked with both right and left ventricular measurements. Finally, we found that a polygenic predictor of right ventricular end systolic volume was associated with incident dilated cardiomyopathy (HR 1.28 per standard deviation; P = 2.4E-10), and remained a significant predictor of disease even after accounting for a left ventricular polygenic score. Harnessing deep learning to perform large-scale cardiac phenotyping, our results yield insights into the genetic and clinical determinants of right heart structure and function.

scholarly journals Right Ventricle Involvement in Hypertrophic Cardiomyopathy and Role of Cardiac Magnetic Resonance in Hypertrophic Cardiomyopathy: Review Article

2021 ◽  
Vol 24 (4) ◽  
pp. E746-E750
Author(s):  
Weihao Ding ◽  
Sandeep Bhushan ◽  
Chen Ma ◽  
Yifan Yan ◽  
Zongwei Xiao
Keyword(s):  
Hypertrophic Cardiomyopathy ◽  
Magnetic Resonance ◽  
Left Ventricle ◽  
Right Ventricle ◽  
Right Ventricular ◽  
Complex Geometry ◽  
Imaging Modality ◽  
Phenotypic Expression ◽  
The Right ◽  
And Function

Hypertrophic cardiomyopathy (HCM) is the most common genetic cardiac disease, and its main characteristic is symmetrical or asymmetrical hypertrophy of the left ventricle and/or right ventricle. Most previous studies mainly include the left ventricle for definition of HCM, thus neglecting the right ventricle. But recently, many studies have reported the right ventricular involvement in HCM. Histopathological results showed that similar pathogenic changes in both the right and left ventricles, which suggests common myopathic processes and sarcomere genetic mutations. Cardiovascular magnetic resonance (CMR) is a gold standard imaging modality to assess heart anatomy and function and provides highly accurate and reproducible measurements. CMR is very useful in characterizing the various phenotypes of right and left ventricles in HCM. CMR also can be useful in detecting early and dominant phenotypic expression of HCM. Due to the complex geometry of the right ventricle and its retrosternal position, echocardiography may not provide accurate measurements. CMR also provides more accurate and repeatable right ventricular measurements. Thus, right ventricle evaluation along with left ventricle should routinely be done for better assessment of HCM patients.

scholarly journals Transthoracic echocardiographic assessment of the right ventricle before and after caesarean delivery: A preliminary investigation

2020 ◽  
Vol 48 (2) ◽  
pp. 143-149
Author(s):  
Abirami Kumaresan ◽  
Alexander D Shapeton ◽  
Hong-mei Yuan ◽  
Philip E Hess
Keyword(s):  
Right Ventricle ◽  
Brain Natriuretic Peptide ◽  
Right Ventricular ◽  
Natriuretic Peptide ◽  
Caesarean Delivery ◽  
Troponin T ◽  
Preliminary Investigation ◽  
Left Ventricular ◽  
Before And After ◽  
The Right

Transthoracic echocardiographic evaluation of the right ventricle is more difficult than the left ventricle and has not been well characterised in the parturient during delivery. As a preliminary investigation, our goal was to use bedside transthoracic echocardiography to evaluate right ventricular myocardial function before and after caesarean delivery. Term parturients undergoing caesarean delivery under spinal anaesthesia were enrolled. Echocardiography was performed pre- and postoperatively. Assessment of myocardial function included longitudinal myocardial strain using 2D-speckle tracking for both ventricles, and fractional area change for the right ventricle. Troponin-T, creatine kinase-muscle/brain and brain natriuretic peptide were measured pre- and postoperatively. One hundred patients were enrolled; 98 completed the study. Adequate images from both timepoints (pre- and postoperatively) were obtained in 85 patients for left ventricle assessment, and 66 for the right ventricle. Right ventricular fractional area change (mean (standard deviation)) (24.9% (8.9%) to 24.9% (9.2%); P = 0.99) and strain (−19.7% (6.8%) to −18.1% (6.5%); P = 0.08) measurements suggested mild baseline dysfunction and did not change after delivery. Left ventricular strain values were normal and unchanged after delivery (−23.8% (7.4%) to −24.3% (6.7%); P = 0.51). One patient had elevated troponin-T and demonstrated worse biventricular function. Elevation of brain natriuretic peptide ( n=7) was associated with mildly decreased left ventricular strain, but creatine kinase-muscle/brain ( n=4) was not associated with consistent changes in cardiac function. Further investigations into peripartum right ventricular function are required to validate the findings in this preliminary study. Findings of baseline mild right ventricular dysfunction and functional changes associated with troponin-T and brain natriuretic peptide warrant rigorous investigation.

Dimensional analysis of right and left ventricles during positive-pressure ventilation in dogs

1982 ◽  
Vol 242 (4) ◽  
pp. H549-H556 ◽  
Author(s):  
S. S. Cassidy ◽  
J. H. Mitchell ◽  
R. L. Johnson
Keyword(s):  
Left Ventricle ◽  
Stroke Volume ◽  
Right Ventricular ◽  
Left Ventricular ◽  
Left Ventricular Volumes ◽  
Ventricular Volumes ◽  
End Diastolic Volume ◽  
Left And Right ◽  
The Right ◽  
Ventricular Dimensions

Our purpose was to determine the effects of controlled ventilation with positive end-expired pressure (PEEP) on ventricular dimensions and to relate changes in shape to changes in stroke volume and left ventricular volumes. Left and right ventricular dimensions were measured using biplane cinefluorography of dogs with radiopaque markers implanted in their hearts, and left ventricular volumes were derived from left ventricular dimensions by assuming that the left ventricle conformed to the shape of a nonprolate ellipsoid. As PEEP increased from 0 to 5, 10, and 15 cmH2O, stroke volume fell 36%, and all three left ventricular end-diastolic dimensions fell, with apex-base falling 5%, anterior-posterior falling 7%, and septal-lateral falling nearly twice as much, 12%. This resulted in a 11.3 cm3 fall in left ventricular end-diastolic volume. The right ventricular end-diastolic dimensions changed in opposite directions with respect to each other as the level and PEEP was raised to 15 cmH2O; one axis fell 3.2 mm, and the midpoint of the right ventricular free wall moved outward by 1.7 mm. Thus the fall in cardiac output (and stroke volume) during PEEP was associated with a fall in left ventricular end-diastolic volume and a change both left and right ventricular configurations. It is not known whether the left ventricular septal-lateral narrowing is the consequence of lateral wall compression by the lungs or encroachment on the left ventricle by the septum.

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