心脏移植受者左心室纵向应变全自动测量的可行性、可重复性及预后价值
Feasibility, reproducibility, and prognostic value of a fully automated measurement of left ventricular longitudinal strain in heart transplant recipients.
作者信息
Cai Yu, Wu Chun, Zhu Shuangshuang, Zhang Yanting, Xie Yuji, Tan Yuting, Yan Xiaojun, Huang Lei, Zhang Yichan, Zhang Yiwei, Li Yuman, Yang Yali, Wang Jing, Sun Zhenxing, Zhang Li, Xie Mingxing
机构信息
Department of Ultrasound Medicine, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, China.
Clinical Research Center for Medical Imaging in Hubei Province, Wuhan, China.
出版信息
Front Cardiovasc Med. 2025 May 20;12:1499306. doi: 10.3389/fcvm.2025.1499306. eCollection 2025.
AIMS
Left ventricular longitudinal strain (LVGLS) is a robust parameter for predicting adverse events in patients who have undergone a heart transplant (HTx). However, measuring LVGLS is time-consuming and operator-dependent. Thus, we investigated whether automated strain software for LVGLS measurement has feasibility, reproducibility, and prognostic value in patients who underwent an HTx.
METHODS
In total, 286 patients who had undergone heart transplants and comprehensive echocardiography were included. LVGLS was obtained from the same apical images by three different methods, namely, fully automated LVGLS measurement (Auto-Strain), semiautomated LVGLS measurement (automated with manual editing), and manual LVGLS measurement. Patients were followed up and the primary composite endpoint (defined as all-cause death and rejection) was recorded.
RESULTS
Fully automated measurements were feasible in 277 subjects (96.8%). Analysis times for the automated LVGLS (27.7 ± 2.8 s/patient) and the semiautomated LVGLS measurement methods (237.4 ± 41.0 s/patient) were shorter than for the manual LVGLS measurement method (440.4 ± 65 s/patient). The semiautomated LVGLS measurement method showed a stronger correlation with the manual LVGLS measurement method than the automated LVGLS measurement method ( = 0.854 vs. 0.654, < 0.001), and there were smaller disagreements between the semiautomated LVGLS and manual LVGLS measurement methods [bias: 0.79, limits of agreement (LOA): 2.78] than between the automated LVGLS and manual LVGLS measurement methods (bias: 2.72, LOA: 3.98). During a median follow-up of 51 months (35.0-66.5 months), 35 patients experienced endpoint events. The automated LVGLS measurement method can detect abnormal systolic function and predict adverse events in patients who have undergone an HTx, while the detection and prediction ability of semiautomated the LVGLS measurement method was greater.
CONCLUSIONS
Fully automated LVGLS measurement enables rapid and reproducible assessment of graft function in patients who have undergone an HTx. Furthermore, the automated LVGLS measurement method detected abnormal systolic function and predicted adverse events, while the semiautomated LVGLS measurement method performed better in these aspects.
目的
左心室纵向应变(LVGLS)是预测心脏移植(HTx)患者不良事件的有力参数。然而,测量LVGLS耗时且依赖操作者。因此,我们研究了用于测量LVGLS的自动应变软件在接受HTx的患者中是否具有可行性、可重复性和预后价值。
方法
总共纳入了286例接受心脏移植并进行了全面超声心动图检查的患者。通过三种不同方法从相同的心尖图像中获取LVGLS,即全自动LVGLS测量(自动应变)、半自动LVGLS测量(自动测量并手动编辑)和手动LVGLS测量。对患者进行随访并记录主要复合终点(定义为全因死亡和排斥反应)。
结果
277例受试者(96.8%)的全自动测量可行。自动LVGLS测量方法(27.7±2.8秒/患者)和半自动LVGLS测量方法(237.4±41.0秒/患者)的分析时间短于手动LVGLS测量方法(440.4±65秒/患者)。半自动LVGLS测量方法与手动LVGLS测量方法的相关性比自动LVGLS测量方法更强(r=0.854对0.654,P<0.001),并且半自动LVGLS与手动LVGLS测量方法之间的差异[偏差:0.79,一致性界限(LOA):2.78]小于自动LVGLS与手动LVGLS测量方法之间的差异(偏差:2.72,LOA:3.98)。在中位随访51个月(35.0 - 66.5个月)期间,35例患者发生终点事件。自动LVGLS测量方法可检测接受HTx患者的异常收缩功能并预测不良事件,而半自动LVGLS测量方法的检测和预测能力更强。
结论
全自动LVGLS测量能够对接受HTx的患者的移植物功能进行快速且可重复的评估。此外,自动LVGLS测量方法可检测异常收缩功能并预测不良事件,而半自动LVGLS测量方法在这些方面表现更佳。
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