Methodology study for the anatomic structure of aortic root using three-dimensional transesophageal echocardiography / 中华超声影像学杂志

Objective To establish a quantitative analysis method for the anatomic structure of aortic root by real-time three-dimensional transesophageal echocardiography,and to explore the reliability and repeatability of this method.Methods Ninety five adult patients underwent RT-3DTEE were included in this study.Full-volume 3D images of aortic root were acquired and analyzed offline with QLab-3DQ (iE33, Philips).The three mutually perpendicular plane were determined.Results 1 )Aortic root:At the end of diastole,the diameter and area of coronary artery sinus bottoms level was 1 .84 cm and 3.45 cm2 ;the diameter and area of top commissural level was 2.97 cm and 7.77 cm 2 ;the diameter and area of sino-tubular junction level was 2.72 cm and 5.44 cm 2 .2)Aortic sinus:right coronary sinus was widest,left coronary sinus was the most stenosis(P 0.50).The measurement of each parameter,which analysis among different angles showed that 0° region were more accurate than others.Conclusions 3D quantitative analysis to aortic root can be established by full-volume RT-3DTEE images and has better reliability and repeatability.

Live/Real Time Three-Dimensional Transesophageal Echocardiographic Evaluation of Mitral and Aortic Valve Prosthetic Paravalvular Regurgitation.

Thirteen patients already scheduled for surgery for repair of prosthetic paravalvular regurgitation underwent intraoperative real time two-dimensional transesophageal echocardiography (2D TEE) and live/real time three-dimensional transesophageal echocardiography (3D TEE). In all patients, 3D TEE was able to provide more information regarding the location and size of the paravalvular defect as compared to 2D TEE. 3D TEE resulted in a more accurate localization of the defect and an estimation of the size of the defect that correlated much more closely with surgical findings when compared with 2D TEE. Our preliminary results demonstrate the superiority of 3D TEE over 2D TEE in the evaluation of paravalvular prosthetic regurgitation. 3D TEE not only provides an accurate assessment of the exact site of the leakage, but also gives a more accurate estimate of its size. This information could be valuable to surgeons who may encounter difficulty when localizing and estimating the size of paraprosthetic leaks while the heart is devoid of blood during surgery