Addressing Inter-reconstruction variability in multi-energy myocardial CT Radiomics: The Benefits of combat harmonization

IF 3.2 3区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

European Journal of Radiology Pub Date : 2025-02-01 DOI:10.1016/j.ejrad.2024.111891

Sarv Priya , Abigail Reutzel , Otavio Augusto Ferreira Dalla Pria , Sawyer Goetz , Hanh Td Pham , Aiah Alatoum , Pritish Y Aher , Sabarish Narayanasamy , Prashant Nagpal , Knute D. Carter

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引用次数: 0

Abstract

Rationale and Objectives

To investigate the effect of ComBat harmonization on the stability of myocardial radiomic features derived from multi-energy CT reconstructions.

Materials and Methods

A retrospective study was conducted on 205 patients who underwent dual-energy chest CTA at a single center. The data was reconstructed into multiple spectral reconstructions (mixed energy simulating standard 120 Kv acquisition and monoenergetic images ranging from 40 to 190 keV in increments of 10). The left ventricle myocardium was segmented using semiautomated software (Syngo.Via FRONTIER, version 5.0.2; Siemens). Radiomic features were extracted from multiple spectral reconstructions (batches). The consistency of these radiomics features across different batches was evaluated with and without ComBat harmonization using Cohen’s d and Principal component analysis (PCA). Both parametric and nonparametric ComBat methods were considered.

Results

Without any ComBat technique, 43.40% of features remained consistent across all multienergy reconstructions. Applying ComBat harmonization increased this consistency to 98.37% with parametric empirical bayes (EB) ComBat and EB M−ComBat, and to 91.52% and 92.33% with nonparametric EB ComBat and nonparametric EB M−ComBat, respectively. PCA without ComBat revealed noticeable differences in the first two principal components between batches, indicating a batch effect or unstable radiomic features. Following ComBat harmonization, the principal components showed more consistency between batches, demonstrating radiomics feature stability between batches.

Conclusion

ComBat harmonization enhanced the consistency of radiomic features from multi-energy CT data. Integrating ComBat harmonization may lead to more reproducible results in multienergy CT radiomics studies.

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处理多能量心肌CT放射组学的重建间变异性：战斗协调的好处。

理由与目的：探讨战斗协调对多层能CT重建心肌放射学特征稳定性的影响。材料与方法：对205例在单中心行双能胸部CTA的患者进行回顾性研究。数据被重建成多个光谱重建（混合能量模拟标准120 Kv采集和单能量图像，从40到190 keV，增量为10）。采用半自动软件（Syngo）对左心室心肌进行分割。通过FRONTIER，版本5.0.2；西门子)。从多个光谱重构（批次）中提取放射性特征。使用Cohen's d和主成分分析（PCA）对不同批次的放射组学特征的一致性进行了评估。同时考虑了参数化和非参数化战斗方法。结果：在没有任何战斗技术的情况下，43.40%的特征在所有多能重建中保持一致。采用战斗协调将参数经验贝叶斯（EB） ComBat和EB M-ComBat的一致性提高到98.37%，非参数经验贝叶斯（EB） ComBat和非参数经验贝叶斯（EB M-ComBat）的一致性分别提高到91.52%和92.33%。没有战斗的PCA揭示了批次之间前两个主成分的显着差异，表明批次效应或不稳定的放射性特征。在战斗协调之后，主成分在批次之间表现出更多的一致性，证明了批次之间的放射组学特征稳定性。结论：战斗协调增强了多能CT数据放射学特征的一致性。在多能CT放射组学研究中，整合战斗协调可能会带来更多可重复性的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

European Journal of Radiology 医学-核医学

CiteScore

6.70

自引率

3.00%

发文量

398

审稿时长

42 days

期刊介绍： European Journal of Radiology is an international journal which aims to communicate to its readers, state-of-the-art information on imaging developments in the form of high quality original research articles and timely reviews on current developments in the field. Its audience includes clinicians at all levels of training including radiology trainees, newly qualified imaging specialists and the experienced radiologist. Its aim is to inform efficient, appropriate and evidence-based imaging practice to the benefit of patients worldwide.