QUANTITATIVE ASSESSMENT OF NORMAL AND STENOTIC AORTIC-VALVE USING TRANSESOPHAGEAL 3-DIMENSIONAL ECHOCARDIOGRAPHY

被引：50

作者：

NANDA, NC

ROYCHOUDHURY, D

CHUNG, SM

KIM, KS

OSTLUND, V

KLAS, B

机构：

[1] University of Alabama at Birmingham, Birmingham, Alabama

[2] TomTec Imaging Systems, Inc., Broomfield, Colorado

来源：

ECHOCARDIOGRAPHY-A JOURNAL OF CARDIOVASCULAR ULTRASOUND AND ALLIED TECHNIQUES | 1994年 / 11卷 / 06期

关键词：

3-DIMENSIONAL RECONSTRUCTION; 3-DIMENSIONAL ECHOCARDIOGRAPHY; 4-DIMENSIONAL ECHOCARDIOGRAPHY; TRANSESOPHAGEAL ECHOCARDIOGRAPHY; AORTIC VALVE; AORTIC VALVE STENOSIS; AORTIC VALVE AREA;

D O I：

10.1111/j.1540-8175.1994.tb01106.x

中图分类号：

R5 [内科学];

学科分类号：

1002 ; 100201 ;

摘要：

The present study demonstrates the feasibility of transesophageal three-dimensional reconstruction of normal, sclerotic, and stenotic aortic valves using a computed tomographic ultrasound system. The study also shows the potential clinical usefulness of this technique in delineating aortic valve morphology (extent and severity of valve thickening and calcification and size and number of cusps) and assessing aortic orifice areas by direct planimetry of the three-dimensional images.

引用

页码：617 / 625

页数：9

共 11 条

[1]

Ghosh A, Nanda NC, Maurer G, Three‐dimensional reconstruction of echocardiography images using the rotation method, Ultrasound Med Biol, 6, pp. 655-661, (1982)

[2]

Raqueno R, Ghosh A, Nanda NC, Et al., Four‐dimensional reconstruction of two‐dimensional echocardiographic images, Echocardiography, 6, pp. 323-337, (1989)

[3]

King DL, King DL, Shao MY, Three‐dimensional spatial registration and interactive display of position and orientation of realtime ultrasound images, J Ultrasound Med, 9, pp. 525-532, (1990)

[4]

Wang, Li ZA, Cheng TO, Et al., Clinical application of three‐dimensional transesophageal echocardiography, Am Heart J, 123, pp. 380-388, (1994)

[5]

Flachskampf FA, Handschumaketr M, Vander-voort PM, Et al., Dynamic three dimensional reconstruction of the mitral annulus using a multiplane transesophageal echo‐transducer, Circulation, 84, pp. 11-686, (1991)

[6]

Nanda NC, Pinheiro L, Sanyal R, Et al., Multiplane transesophageal echocardiographic imaging and three‐dimensional reconstruction, Echocardiography, 9, pp. 667-676, (1992)

[7]

Wollschlager H, Et al., Transesophageal echo computertomography: A new method for dynamic three‐dimensional imaging of the heart, Computers in Cardiology 1989, (1990)

[8]

Pandian NG, Nanda NC, Schwartz SL, Et al., Three‐dimensional and four‐dimensional transesophageal echocardiographic imaging of the heart and aorta in humans using a computed tomographic imaging probe, Echocardiography, 9, pp. 677-687, (1992)

[9]

Pandian NG, Roelandt, Nanda NC, Et al., Dynamic three dimensional echocardiography: Methods and clinical potential, Echocardiography, 11, pp. 237-259, (1994)

[10]

Seward JB, Khandheria BK, Oh JK, Et al., Transesophageal echo: Technique, anatomic correlations, implementation, and clinical applications, Mayo Clin Proc, 63, (1988)

← 1 2 →