3D Echo and Invasive Pressure Synchronization - Generating Real Time, Multi Cycle Pressure Volume Loops

Dariusz Mroczek, Kyong-Jin Lee, Juan Pablo Sandoval, Helene Houle, Andreea Dragulescu, Lee Benson, Rajiv R. Chaturvedi

2014

Abstract

The ventricular pressure-volume loop (PVL) relates intracardiac pressure changes as a function of volume changes during the cardiac cycle and is a convenient method to understand major determinants of myocardial performance. Acquiring PVL is not simple in human models, the main limitation being accurate volume measurement. Traditionally PVL is obtained using conductance catheterization which is based on the measurement of the electrical conductivity of the blood volume by placing a multiple electrode catheter along the long axis of the ventricle (either right or left) during catheterization and delivering an alternating current between the most proximal and distal electrodes. -1- Although conductance catheterization is considered the gold standard for pressure volume relationship acquisitions, this technology and equipment is difficult to use and time consuming. There has been considerable development in three-dimensional echocardiography and more recently display of cardiac structures in real time rather than as offline reconstructed images from multiple 2D echocardiographic slices. An important clinical application of three-dimensional real-time echocardiography (3D-RTE) includes delineation of ventricular morphology and volume quantification - 2,3-

References

  1. Baan J, Van der Helde E, De Bruin H, Smeenk G, Koops J, Van Dijk A, Temmerman D, Senden J, Buis B. Continuous measurement of left ventricular volume in animals and humans by conductance catheter. Circulation 1984; 70:812-823
  2. Lu X, Nadvoretskiy V, Klas B, Bu L, Stolpen A, Ayres NA, Sahn DJ, Ge S. Measurement of volumetric flow by real-time 3-dimensional doppler echocardiography in children. J Am Soc Echocardiogr. 2007 Aug; 20(8):915-20.
  3. Herberg U, Gatzweiller E, et al. Ventricular pressurevolume loops obtained by 3D real-time echocardiography and mini pressure wire-a feasibility study. Clin Res Cardiol. 2013; 102:427-438.
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Paper Citation


in Harvard Style

Mroczek D., Lee K., Pablo Sandoval J., Houle H., Dragulescu A., Benson L. and R. Chaturvedi R. (2014). 3D Echo and Invasive Pressure Synchronization - Generating Real Time, Multi Cycle Pressure Volume Loops . In - CARDIOTECHNIX, ISBN , pages 0-0


in Bibtex Style

@conference{cardiotechnix14,
author={Dariusz Mroczek and Kyong-Jin Lee and Juan Pablo Sandoval and Helene Houle and Andreea Dragulescu and Lee Benson and Rajiv R. Chaturvedi},
title={3D Echo and Invasive Pressure Synchronization - Generating Real Time, Multi Cycle Pressure Volume Loops},
booktitle={ - CARDIOTECHNIX,},
year={2014},
pages={},
publisher={SciTePress},
organization={INSTICC},
doi={},
isbn={},
}


in EndNote Style

TY - CONF
JO - - CARDIOTECHNIX,
TI - 3D Echo and Invasive Pressure Synchronization - Generating Real Time, Multi Cycle Pressure Volume Loops
SN -
AU - Mroczek D.
AU - Lee K.
AU - Pablo Sandoval J.
AU - Houle H.
AU - Dragulescu A.
AU - Benson L.
AU - R. Chaturvedi R.
PY - 2014
SP - 0
EP - 0
DO -