Radiomics features for the discrimination of tuberculomas from high grade gliomas and metastasis: a multimodal study.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-11-01 Epub Date: 2024-08-05 DOI:10.1007/s00234-024-03435-7
Abhilasha Indoria, Karthik Kulanthaivelu, Chandrajit Prasad, Dwarakanath Srinivas, Shilpa Rao, Neelam Sinha, Vivek Potluri, M Netravathi, Atchayaram Nalini, Jitender Saini
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Abstract

Background: Tuberculomas are prevalent in developing countries and demonstrate variable signals on MRI resulting in the overlap of the conventional imaging phenotype with other entities including glioma and brain metastasis. An accurate MRI diagnosis is important for the early institution of anti-tubercular therapy, decreased patient morbidity, mortality, and prevents unnecessary neurosurgical excision. This study aims to assess the potential of radiomics features of regular contrast images including T1W, T2W, T2W FLAIR, T1W post contrast images, and ADC maps, to differentiate between tuberculomas, high-grade-gliomas and metastasis, the commonest intra parenchymal mass lesions encountered in the clinical practice.

Methods: This retrospective study includes 185 subjects. Images were resampled, co-registered, skull-stripped, and zscore-normalized. Automated lesion segmentation was performed followed by radiomics feature extraction, train-test split, and features reduction. All machine learning algorithms that natively support multiclass classification were trained and assessed on features extracted from individual modalities as well as combined modalities. Model explainability of the best performing model was calculated using the summary plot obtained by SHAP values.

Results: Extra tree classifier trained on the features from ADC maps was the best classifier for the discrimination of tuberculoma from high-grade-glioma and metastasis with AUC-score of 0.96, accuracy-score of 0.923, Brier-score of 0.23.

Conclusion: This study demonstrates that radiomics features are effective in discriminating between tuberculoma, metastasis, and high-grade-glioma with notable accuracy and AUC scores. Features extracted from the ADC maps surfaced as the most robust predictors of the target variable.

Abstract Image

用于区分结核瘤与高级别胶质瘤和转移瘤的放射组学特征:一项多模态研究。
背景:结核瘤在发展中国家很常见,在核磁共振成像上表现出不同的信号,导致常规成像表型与胶质瘤和脑转移瘤等其他实体重叠。准确的核磁共振成像诊断对于早期进行抗结核治疗、降低患者发病率和死亡率以及避免不必要的神经外科切除术非常重要。本研究旨在评估常规对比图像(包括 T1W、T2W、T2W FLAIR、T1W 后对比图像和 ADC 图)的放射组学特征在区分结核瘤、高级别胶质瘤和转移瘤(临床实践中最常见的实质内肿块病变)方面的潜力:这项回顾性研究包括 185 名受试者。对图像进行了重新采样、联合注册、颅骨切片和 zscore 归一化处理。进行自动病灶分割,然后进行放射组学特征提取、训练-测试分割和特征还原。所有本机支持多类分类的机器学习算法都经过了训练,并对从单个模态和组合模态提取的特征进行了评估。使用 SHAP 值获得的汇总图计算表现最佳模型的可解释性:结果:根据 ADC 图特征训练的外树分类器是区分结核瘤与高级别胶质瘤和转移瘤的最佳分类器,其 AUC 得分为 0.96,准确率得分为 0.923,Brier 得分为 0.23:这项研究表明,放射组学特征能有效区分结核瘤、转移瘤和高级别胶质瘤,其准确率和AUC得分都很高。从 ADC 图中提取的特征是预测目标变量的最可靠指标。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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