Department of Medical Imaging Center, The Affiliated Huaian No. 1 People's Hospital of Nanjing Medical University, Huai'an, Jiangsu, China (Y-W.B.).
Department of Diagnostic Radiology, Li Ka Shing Faculty of Medicine, The University of Hong Kong, Hong Kong SAR, China (Z-J.W., H.K-F.M.).
Acad Radiol. 2024 Dec;31(12):5154-5163. doi: 10.1016/j.acra.2024.06.040. Epub 2024 Jul 12.
Prior to clinical presentations of Alzheimer's Disease (AD), neuropathological changes, such as amyloid-β and brain atrophy, have accumulated at the earlier stages of the disease. The combination of such biomarkers assessed by multiple modalities commonly improves the likelihood of AD etiology. We aimed to explore the discriminative ability of Aβ PET features and whether combining Aβ PET and structural MRI features can improve the classification performance of the machine learning model in older healthy control (OHC) and mild cognitive impairment (MCI) from AD.
We collected 94 AD patients, 82 MCI patients, and 85 OHC from three different cohorts. 17 global/regional Aβ features in Centiloid, 122 regional volume, and 68 regional cortical thickness were extracted as imaging features. Single or combined modality features were used to train the random forest model on the testing set. The top 10 features were sorted based on the Gini index in each binary classification.
The results showed that AUC scores were 0.81/0.86 and 0.69/0.68 using sMRI/Aβ PET features on the testing set in differentiating OHC and MCI from AD. The performance was improved while combining two-modality features with an AUC of 0.89 and an AUC of 0.71 in two classifications. Compared to sMRI features, particular Aβ PET features contributed more to differentiating AD from others.
Our study demonstrated the discriminative ability of Aβ PET features in differentiating AD from OHC and MCI. A combination of Aβ PET and structural MRI features can improve the RF model performance.
在阿尔茨海默病(AD)的临床症状出现之前,淀粉样蛋白-β(amyloid-β)和脑萎缩等神经病理学变化已在疾病的早期阶段积累。通过多种模式评估的此类生物标志物的组合通常可提高 AD 病因的可能性。我们旨在探索 Aβ PET 特征的区分能力,以及 Aβ PET 和结构 MRI 特征的组合是否可以提高机器学习模型在 AD 老年健康对照(OHC)和轻度认知障碍(MCI)中的分类性能。
我们从三个不同的队列中收集了 94 名 AD 患者、82 名 MCI 患者和 85 名 OHC。在 Centiloid 中提取了 17 个全局/区域 Aβ 特征、122 个区域体积和 68 个区域皮质厚度作为成像特征。使用随机森林模型在测试集上训练单模态或多模态特征。根据每个二分类中的基尼指数对前 10 个特征进行排序。
结果表明,在测试集上使用 sMRI/Aβ PET 特征区分 OHC 和 MCI 与 AD 时,AUC 评分为 0.81/0.86 和 0.69/0.68。当结合两种模态特征时,性能得到提高,AUC 分别为 0.89 和 0.71。与 sMRI 特征相比,特定的 Aβ PET 特征对 AD 的区分贡献更大。
我们的研究表明 Aβ PET 特征在区分 AD 与 OHC 和 MCI 方面具有区分能力。Aβ PET 和结构 MRI 特征的组合可以提高 RF 模型的性能。
