NDT Advance Access originally published online on July 12, 2006
Nephrology Dialysis Transplantation 2006 21(9):2668; doi:10.1093/ndt/gfl318
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Pitfalls in comparison of left ventricular mass measurements by echocardiography and cardiovascular magnetic resonance imaging
Email: chuangm{at}med.umich.eduSir,
We read with interest the recent report by Getts et al. [1] on the use of volumetric cardiovascular magnetic resonance (CMR) imaging to follow regression of left ventricular (LV) hypertrophy after bilateral nephrectomy. The authors note that echocardiography may overestimate LV mass in end-stage renal disease patients and that CMR may be particularly valuable for serial cardiac examinations. We agree with both assertions, but we emphasize two related points. First, clinical echocardiography can overestimate LV mass, because a cubed-power mathematical formula is used to estimate mass from linear measurements of the LV [2] and the underlying geometric assumptions may be invalid in diseased and distorted ventricles. Errors increase with excess LV wall thickness and elevated LV end-diastolic diameter [3]. The overestimation is not a deficiency of echocardiography per se as three-dimensional echocardiography (3DE), which does not rely on geometric models, is able to measure LV mass accurately with respect to CMR [4].
For the case report, applying the commonly used Penn (geometric) LV mass formula to their linear CMR measurements yields ‘echo-equivalent’ geometric LV mass of 580 g pre-nephrectomy and 362 g post-nephrectomy, both greater than the actual (volumetric) CMR LV masses of 262 g pre-nephrectomy and 208 g post-nephrectomy. This gives the interesting, but erroneous, result of post-nephrectomy ‘geometric-echo’ mass being greater than pre-nephrectomy volumetric CMR mass. (LV diameters, of 46.3 mm pre-nephrectomy and 48.1 mm post-nephrectomy, were back-calculated using data in the Figures and in Table 2.) This leads to the second point: a volumetric-CMR LV mass cannot directly be compared with the standard clinical-echo estimate of LV mass, as the geometric formulas not only frequently overestimate LV mass but also stratify patients discordantly relative to volumetric CMR. In a study of 292 adults from the Framingham Heart Study Offspring cohort, one-third of participants were assigned to different quartiles of LV mass when ranked by geometric-formula mass versus volumetric-CMR mass [5]. In summary, a lower volumetric-CMR LV mass, as compared with prior clinical-echo LV mass, does not necessarily imply a true decrease in LV mass. Thus volumetric methods such as CMR and 3DE are preferred for evaluation of cardiac function and LV mass, particularly across serial examinations.
Conflict of interest statement. None declared.
1 Department of Internal Medicine University of Michigan Medical System, Ann Arbor, MI2 Division of Cardiovascular Medicine Beth Israel Deaconess Medical Center and3 Harvard Medical School, Boston, MA, USA
References
- Getts RT, Hazlett SM, Sharma SB et al. Regression of left ventricular hypertrophy after bilateral nephrectomy. Nephrol Dial Transplant 2006; 21: 1089–1091
[Free Full Text] - Schiller NB, Shah PM, Crawford M et al. Recommendations for quantitation of the left ventricle by two-dimensional echocardiography. American Society of Echocardiography Committee on Standards, Subcommittee on Quantitation of Two-Dimensional Echocardiograms. J Am Soc Echocardiogr 1989; 2: 358–367[Medline]
- Chuang ML, Salton CJ, Kissinger KV et al. M-Mode errors in determination of LV mass are greater with increasing cavity size and wall thickness: an MRI study. J Am Coll Cardiol 2001; 37 [Suppl A]: 392A
- Mor-Avi V, Sugeng L, Weinert L et al. Fast measurement of left ventricular mass with real-time three-dimensional echocardiography: comparison with magnetic resonance imaging. Circulation 2004; 110: 1814–1818
[Abstract/Free Full Text] - Salton CJ, O’Donnell CJ, Kissinger KV et al. Discordant risk stratification for elevated left ventricular mass by volumetric and geometric-formula methods. J Cardiovasc Magn Reson 2006; 8: 134–135
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