徒手三维超声心动图测定心室异常患者的左心室容积和质量:与磁共振成像的比较
Freehand three-dimensional echocardiography for determination of left ventricular volume and mass in patients with abnormal ventricles: comparison with magnetic resonance imaging.
作者信息
Gopal A S, Schnellbaecher M J, Shen Z, Boxt L M, Katz J, King D L
机构信息
Department of Radiology, Columbia University, New York, NY, USA.
出版信息
J Am Soc Echocardiogr. 1997 Oct;10(8):853-61. doi: 10.1016/s0894-7317(97)70045-2.
OBJECTIVE
The objective of this study was to validate the freehand three-dimensional echocardiographic method in patients with abnormal ventricular geometry compared with two-dimensional echocardiography using magnetic resonance imaging as a standard.
BACKGROUND
Two-dimensional echocardiographic methods for estimating left ventricular volume and mass in clinical use today are limited by inaccuracies and variations caused by use of geometric assumptions and errors in image plane positioning. Freehand three-dimensional echocardiography with operator guidance by a "line of intersection" display eliminates these assumptions and errors. This method of volume and mass computation has been validated as highly accurate and reproducible in healthy subjects.
METHODS
Left ventricular end-systolic and end-diastolic volumes and myocardial mass were determined by freehand three-dimensional echocardiography, by conventional two-dimensional echocardiography using the apical biplane summation of discs method (volume) and the truncated ellipsoid method (mass), by M-mode echocardiography using the Penn method (mass), and by magnetic resonance imaging in 30 patients selected only for the presence of an abnormal ventricle. Results were compared by means of linear regression and the Bland-Altman method of analysis.
RESULTS
There was excellent correlation, low bias, and low variability between three-dimensional echocardiography and magnetic resonance imaging for end-diastolic volume (r = 0.90, standard error of the estimate = 31.8 ml, bias = -28.4 ml), end-systolic volume (r = 0.93, standard error of the estimate = 24.1 ml, bias = -13.1 ml), and mass (r = 0.90, standard error of the estimate = 27.3 gm, bias = -22.6 ml). Two-dimensional echocardiography was less accurate and more variable as follows: end-diastolic volume (r = 0.70, standard error of the estimate = 39.8 ml, bias = -33.5 ml), end-systolic volume (r = 0.78, standard error of the estimate = 31.2 ml, bias = -26.7 ml), and mass (r = 0.80, standard error of the estimate = 37.3 gm, bias = 28.9 ml). M-mode echocardiography mass determination (Penn method) was least accurate and most variable (r = 0.075, standard error of the estimate = 78.3 gm, bias = 78.3 gm).
CONCLUSIONS
Freehand three-dimensional echocardiography is a method of high accuracy and low variability for computing left ventricular volume and mass in clinical patients with abnormal ventricles. It is superior to conventional one- and two-dimensional echocardiography. The improvement achieved is attributed to elimination of geometric assumptions and image plane positioning errors and additional sampling of the ventricle.
目的
本研究的目的是,以磁共振成像作为标准,验证在心室几何形态异常的患者中徒手三维超声心动图方法与二维超声心动图相比的情况。
背景
当今临床使用的用于估计左心室容积和质量的二维超声心动图方法,受到因使用几何假设以及图像平面定位误差所导致的不准确和变化的限制。由“相交线”显示进行操作员引导的徒手三维超声心动图消除了这些假设和误差。这种容积和质量计算方法在健康受试者中已被验证具有高度准确性和可重复性。
方法
在仅因存在异常心室而入选的30例患者中,通过徒手三维超声心动图、使用圆盘心尖双平面求和法(容积)和截顶椭球体法(质量)的传统二维超声心动图、使用Penn法(质量)的M型超声心动图以及磁共振成像来确定左心室收缩末期和舒张末期容积以及心肌质量。通过线性回归和Bland - Altman分析方法对结果进行比较。
结果
三维超声心动图与磁共振成像在舒张末期容积(r = 0.90,估计标准误差 = 31.8 ml,偏差 = -28.4 ml)、收缩末期容积(r = 0.93,估计标准误差 = 24.1 ml,偏差 = -13.1 ml)和质量(r = 0.90,估计标准误差 = 27.3 g,偏差 = -22.6 ml)方面具有极好的相关性、低偏差和低变异性。二维超声心动图准确性较低且变异性更大,具体如下:舒张末期容积(r = 0.70,估计标准误差 = 39.8 ml,偏差 = -33.5 ml)、收缩末期容积(r = 0.78,估计标准误差 = 31.2 ml,偏差 = -26.7 ml)和质量(r = 0.80,估计标准误差 = 37.3 g,偏差 = 28.9 ml)。M型超声心动图质量测定(Penn法)准确性最低且变异性最大(r = 0.075,估计标准误差 = 78.3 g,偏差 = 78.3 g)。
结论
徒手三维超声心动图是一种在临床心室异常患者中计算左心室容积和质量时准确性高且变异性低的方法。它优于传统的一维和二维超声心动图。所实现的改进归因于消除了几何假设和图像平面定位误差以及对心室的额外采样。
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