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基于多尺度结构 MRI 的 ComBat 协调后放射组学分析预测青少年抗抑郁药治疗重度抑郁症的早期改善。

Prediction of early improvement of major depressive disorder to antidepressant medication in adolescents with radiomics analysis after ComBat harmonization based on multiscale structural MRI.

机构信息

Department of Radiology, The Third Affiliated Hospital of Kunming Medical University, Kunming, 650018, China.

Department of Psychiatry, The Second Affiliated Hospital of Kunming Medical University, Kunming, 650101, China.

出版信息

BMC Psychiatry. 2023 Jun 26;23(1):466. doi: 10.1186/s12888-023-04966-8.

DOI:10.1186/s12888-023-04966-8
PMID:37365541
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10294484/
Abstract

BACKGROUND

Due to individual differences and lack of objective biomarkers, only 30-40% patients with major depressive disorder (MDD) achieve remission after initial antidepressant medication (ADM). We aimed to employ radiomics analysis after ComBat harmonization to predict early improvement to ADM in adolescents with MDD by using brain multiscale structural MRI (sMRI) and identify the radiomics features with high prediction power for selection of selective serotonin reuptake inhibitors (SSRIs) and serotonin norepinephrine reuptake inhibitors (SNRIs).

METHODS

121 MDD patients were recruited for brain sMRI, including three-dimensional T1 weighted imaging (3D-TWI)and diffusion tensor imaging (DTI). After receiving SSRIs or SNRIs for 2 weeks, the subjects were divided into ADM improvers (SSRIs improvers and SNRIs improvers) and non-improvers according to reduction rate of the Hamilton Depression Rating Scale, 17 item (HAM-D) score. Then, sMRI data were preprocessed, and conventional imaging indicators and radiomics features of gray matter (GM) based on surface-based morphology (SBM) and voxel-based morphology (VBM) and diffusion properties of white matter (WM) were extracted and harmonized with ComBat harmonization. Two-level reduction strategy with analysis of variance (ANOVA) and recursive feature elimination (RFE) was utilized sequentially to decrease high-dimensional features. Support vector machine with radial basis function kernel (RBF-SVM) was used to integrate multiscale sMRI features to construct models for early improvement prediction. Area under the curve (AUC), accuracy, sensitivity, and specificity based on the leave-one-out cross-validation (LOO-CV) and receiver operating characteristic (ROC) curve analysis were calculated to evaluate the model performance. Permutation tests were used for assessing the generalization rate.

RESULTS

After 2-week ADM, 121 patients were divided into 67 ADM improvers (31 SSRIs improvers and 36 SNRIs improvers) and 54 ADM non-improvers. After two-level dimensionality reduction, 8 conventional indicators (2 VBM-based features and 6 diffusion features) and 49 radiomics features (16 VBM-based features and 33 diffusion features) were selected. The overall accuracy of RBF-SVM models based on conventional indicators and radiomics features was 74.80% and 88.19%. The radiomics model achieved the AUC, sensitivity, specificity, and accuracy of 0.889, 91.2%, 80.1% and 85.1%, 0.954, 89.2%, 87.4% and 88.5%, 0.942, 91.9%, 82.5% and 86.8% for predicting ADM improvers, SSRIs improvers and SNRIs improvers, respectively. P value of permutation tests were less than 0.001. The radiomics features predicting ADM improver were mainly located in the hippocampus, medial orbitofrontal gyrus, anterior cingulate gyrus, cerebellum (lobule vii-b), body of corpus callosum, etc. The radiomics features predicting SSRIs improver were primarily distributed in hippocampus, amygdala, inferior temporal gyrus, thalamus, cerebellum (lobule vi), fornix, cerebellar peduncle, etc. The radiomics features predicting SNRIs improver were primarily located in the medial orbitofrontal cortex, anterior cingulate gyrus, ventral striatum, corpus callosum, etc. CONCLUSIONS: These findings suggest the radiomics analysis based on brain multiscale sMRI after ComBat harmonization could effectively predict the early improvement of ADM in adolescent MDD patients with a high accuracy, which was superior to the model based on the conventional indicators. The radiomics features with high prediction power may help for the individual selection of SSRIs and SNRIs.

摘要

背景

由于个体差异和缺乏客观的生物标志物,只有 30-40%的重度抑郁症(MDD)患者在初始抗抑郁药物(ADM)治疗后达到缓解。我们旨在通过使用脑多尺度结构 MRI(sMRI)进行放射组学分析,并识别对 ADM 早期改善具有高预测能力的放射组学特征,来预测青少年 MDD 患者 ADM 的早期改善,并确定选择选择性 5-羟色胺再摄取抑制剂(SSRIs)和 5-羟色胺去甲肾上腺素再摄取抑制剂(SNRIs)的高预测能力的放射组学特征。

方法

招募了 121 名 MDD 患者进行脑 sMRI 检查,包括三维 T1 加权成像(3D-TWI)和弥散张量成像(DTI)。在接受 SSRIs 或 SNRIs 治疗 2 周后,根据汉密尔顿抑郁量表 17 项(HAM-D)评分的降低率,将受试者分为 ADM 改善者(SSRIs 改善者和 SNRIs 改善者)和非改善者。然后,对 sMRI 数据进行预处理,提取基于表面形态学(SBM)和基于体素形态学(VBM)的灰质(GM)和白质(WM)扩散特性的常规成像指标和放射组学特征,并使用 ComBat 去卷积进行调和。利用方差分析(ANOVA)和递归特征消除(RFE)的两级降维策略,依次减少高维特征。利用基于径向基函数核(RBF-SVM)的支持向量机来整合多尺度 sMRI 特征,构建早期改善预测模型。基于留一交叉验证(LOO-CV)和受试者工作特征(ROC)曲线分析的曲线下面积(AUC)、准确性、灵敏度和特异性来评估模型性能。通过置换检验评估模型的泛化率。

结果

在 ADM 治疗 2 周后,121 名患者被分为 67 名 ADM 改善者(31 名 SSRIs 改善者和 36 名 SNRIs 改善者)和 54 名 ADM 非改善者。经过两级降维处理,选择了 8 个常规指标(2 个 VBM 基特征和 6 个扩散特征)和 49 个放射组学特征(16 个 VBM 基特征和 33 个扩散特征)。基于常规指标和放射组学特征的 RBF-SVM 模型的整体准确率分别为 74.80%和 88.19%。放射组学模型的 AUC、灵敏度、特异性和准确率分别为 0.889、91.2%、80.1%和 85.1%、0.954、89.2%、87.4%和 88.5%、0.942、91.9%、82.5%和 86.8%,用于预测 ADM 改善者、SSRIs 改善者和 SNRIs 改善者。置换检验的 P 值均小于 0.001。预测 ADM 改善者的放射组学特征主要位于海马体、内侧眶额回、前扣带回、小脑(VII-B 叶)、胼胝体体部等部位。预测 SSRIs 改善者的放射组学特征主要分布于海马体、杏仁核、颞下回、丘脑、小脑(VI 叶)、穹窿、小脑脚等部位。预测 SNRIs 改善者的放射组学特征主要位于内侧眶额皮质、前扣带回、腹侧纹状体、胼胝体等部位。

结论

这些发现表明,基于 ComBat 去卷积的脑多尺度 sMRI 的放射组学分析可以有效地预测青少年 MDD 患者 ADM 的早期改善,其准确性高于基于常规指标的模型。具有高预测能力的放射组学特征可能有助于 SSRIs 和 SNRIs 的个体化选择。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7905/10294484/26d7a9869416/12888_2023_4966_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7905/10294484/1d50536ee524/12888_2023_4966_Fig1_HTML.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7905/10294484/735e59884d4a/12888_2023_4966_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7905/10294484/26d7a9869416/12888_2023_4966_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7905/10294484/1d50536ee524/12888_2023_4966_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7905/10294484/a3adad90cad7/12888_2023_4966_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7905/10294484/735e59884d4a/12888_2023_4966_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7905/10294484/26d7a9869416/12888_2023_4966_Fig4_HTML.jpg

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