一种利用深度学习从左心室机械不同步中发现 CRT 反应新预测因子的方法。
A method using deep learning to discover new predictors from left-ventricular mechanical dyssynchrony for CRT response.
机构信息
College of Computing, Michigan Technological University, 1400 Townsend Drive, Houghton, MI, USA.
Department of Cardiology, The First Affiliated Hospital of Nanjing Medical University, Guangzhou Road 300, Nanjing, 210029, Jiangsu, China.
出版信息
J Nucl Cardiol. 2023 Feb;30(1):201-213. doi: 10.1007/s12350-022-03067-5. Epub 2022 Aug 1.
BACKGROUND
Studies have shown that the conventional parameters characterizing left ventricular mechanical dyssynchrony (LVMD) measured on gated SPECT myocardial perfusion imaging (MPI) have their own statistical limitations in predicting cardiac resynchronization therapy (CRT) response. The purpose of this study is to discover new predictors from the polarmaps of LVMD by deep learning to help select heart failure patients with a high likelihood of response to CRT.
METHODS
One hundred and fifty-seven patients who underwent rest gated SPECT MPI were enrolled in this study. CRT response was defined as an increase in left ventricular ejection fraction (LVEF) > 5% at 6 [Formula: see text] 1 month follow up. The autoencoder (AE) technique, an unsupervised deep learning method, was applied to the polarmaps of LVMD to extract new predictors characterizing LVMD. Pearson correlation analysis was used to explain the relationships between new predictors and existing clinical parameters. Patients from the IAEA VISION-CRT trial were used for an external validation. Heatmaps were used to interpret the AE-extracted feature.
RESULTS
Complete data were obtained in 130 patients, and 68.5% of them were classified as CRT responders. After variable selection by feature importance ranking and correlation analysis, one AE-extracted LVMD predictor was included in the statistical analysis. This new AE-extracted LVMD predictor showed statistical significance in the univariate (OR 2.00, P = .026) and multivariate (OR 1.11, P = .021) analyses, respectively. Moreover, the new AE-extracted LVMD predictor not only had incremental value over PBW and significant clinical variables, including QRS duration and left ventricular end-systolic volume (AUC 0.74 vs 0.72, LH 7.33, P = .007), but also showed encouraging predictive value in the 165 patients from the IAEA VISION-CRT trial (P < .1). The heatmaps for calculation of the AE-extracted predictor showed higher weights on the anterior, lateral, and inferior myocardial walls, which are recommended as LV pacing sites in clinical practice.
CONCLUSIONS
AE techniques have significant value in the discovery of new clinical predictors. The new AE-extracted LVMD predictor extracted from the baseline gated SPECT MPI has the potential to improve the prediction of CRT response.
背景
研究表明,门控 SPECT 心肌灌注显像(MPI)上用于描述左心室机械不同步(LVMD)的常规参数在预测心脏再同步治疗(CRT)反应方面存在其自身的统计学局限性。本研究的目的是通过深度学习从 LVMD 的极地图中发现新的预测因子,以帮助选择对 CRT 反应可能性高的心力衰竭患者。
方法
本研究纳入了 157 例接受静息门控 SPECT MPI 的患者。CRT 反应定义为左心室射血分数(LVEF)在 6 至 1 个月的随访中增加>5%。应用无监督深度学习方法自动编码器(AE)技术从 LVMD 的极地图中提取新的预测因子来描述 LVMD。采用 Pearson 相关分析解释新预测因子与现有临床参数之间的关系。IAEA VISION-CRT 试验中的患者用于外部验证。采用热图解释 AE 提取的特征。
结果
130 例患者获得完整数据,其中 68.5%的患者被分类为 CRT 反应者。通过特征重要性排序和相关性分析进行变量选择后,将一个 AE 提取的 LVMD 预测因子纳入统计分析。该新的 AE 提取的 LVMD 预测因子在单变量(OR 2.00,P=.026)和多变量(OR 1.11,P=.021)分析中均具有统计学意义。此外,新的 AE 提取的 LVMD 预测因子不仅在 PBW 和包括 QRS 持续时间和左心室收缩末期容积在内的重要临床变量(AUC 0.74 比 0.72,LH 7.33,P=.007)方面具有增量价值,而且在 IAEA VISION-CRT 试验的 165 例患者中也显示出令人鼓舞的预测价值(P<.1)。用于计算 AE 提取预测因子的热图显示,前壁、侧壁和下壁的权重更高,这在临床实践中被推荐为 LV 起搏部位。
结论
AE 技术在发现新的临床预测因子方面具有重要价值。从基线门控 SPECT MPI 中提取的新的 AE 提取的 LVMD 预测因子有可能提高 CRT 反应的预测能力。
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