基于磁共振成像放射组学、临床和实验室检查的早期阿尔茨海默病个体化预测：一项 60 个月随访研究。

Individualized Prediction of Early Alzheimer's Disease Based on Magnetic Resonance Imaging Radiomics, Clinical, and Laboratory Examinations: A 60-Month Follow-Up Study.

机构信息

Department of Radiology, the Second Affiliated Hospital of Chongqing Medical University, Chongqing, China.

GE Healthcare, Shanghai, China.

出版信息

J Magn Reson Imaging. 2021 Nov;54(5):1647-1657. doi: 10.1002/jmri.27689. Epub 2021 May 13.

DOI:10.1002/jmri.27689

PMID:33987915

Abstract

BACKGROUND

Accurately predicting whether and when mild cognitive impairment (MCI) will progress to Alzheimer's disease (AD) is of vital importance to help developing individualized treatment plans to defer the occurrence of irreversible dementia.

PURPOSE

To develop and validate radiomics models and multipredictor nomogram for predicting the time to progression (TTP) from MCI to AD.

STUDY TYPE

Retrospective.

POPULATION

One hundred sixty-two MCI patients (96 men and 66 women [median age, 72; age range, 56-88 years]) were included from the Alzheimer's Disease Neuroimaging Initiative (ADNI) database.

FIELD STRENGTH/SEQUENCE: T -weighted imaging and T -weighted fluid-attenuation inversion recovery imaging acquired at 3.0 T.

ASSESSMENT

During the 5-year follow-up, 68 patients converted to AD and 94 remained stable. Patients were randomly divided into the training (n = 112) and validation datasets (n = 50). Radiomic features were extracted from the whole cerebral cortex and subcortical nucleus of MR images. A radiomics model was established using least absolute shrinkage and selection operator (LASSO) Cox regression. The clinical-laboratory model and radiomics-clinical-laboratory model were developed by multivariate Cox proportional hazard model. The performance of each model was assessed by the concordance index (C-index). A multipredictor nomogram derived from the radiomics-clinical-laboratory model was constructed for individualized TTP estimation.

STATISTICAL TESTS

LASSO cox regression, univariate and multivariate Cox regression, Kaplan-Meier analysis and Student's t test were performed.

RESULTS

The C-index of the radiomics, clinical-laboratory and radiomics-clinical-laboratory models were 0.924 (95% confidence interval [CI]: 0.894-0.952), 0.903 (0.868-0.938), 0.950 (0.929-0.971) in the training cohort and 0.811 (0.707-0.914), 0.901 (0824-0.977), 0.907 (0.836-0.979) in the validation cohort, respectively. A multipredictor nomogram with 15 predictors was established, which had high accuracy for individual TTP prediction with the C-index of 0.950 (0.929-0.971).

DATA CONCLUSION

The prediction of individual TTP from MCI to AD could be accurately conducted using the radiomics-clinical-laboratory model and multipredictor nomogram.

EVIDENCE LEVEL

3 TECHNICAL EFFICACY: 2.

摘要

背景

准确预测轻度认知障碍（MCI）是否以及何时会进展为阿尔茨海默病（AD）对于制定个体化治疗计划以延迟不可逆性痴呆的发生至关重要。

目的

开发和验证放射组学模型和多预测列线图，以预测从 MCI 到 AD 的时间进展（TTP）。

研究类型

回顾性。

人群

从阿尔茨海默病神经影像学倡议（ADNI）数据库中纳入 162 名 MCI 患者（96 名男性和 66 名女性[中位数年龄，72 岁；年龄范围，56-88 岁]）。

场强/序列：在 3.0T 上采集 T1 加权成像和 T1 加权液体衰减反转恢复成像。

评估

在 5 年的随访期间，68 名患者转化为 AD，94 名患者保持稳定。患者被随机分为训练集（n=112）和验证集（n=50）。从 MR 图像的整个大脑皮层和皮质下核中提取放射组学特征。使用最小绝对收缩和选择算子（LASSO）Cox 回归建立放射组学模型。通过多变量 Cox 比例风险模型建立临床-实验室模型和放射组学-临床-实验室模型。通过一致性指数（C 指数）评估每个模型的性能。从放射组学-临床-实验室模型中导出一个多预测列线图，用于个体化 TTP 估计。

统计学检验

进行 LASSO Cox 回归、单变量和多变量 Cox 回归、Kaplan-Meier 分析和学生 t 检验。

结果

在训练队列中，放射组学、临床-实验室和放射组学-临床-实验室模型的 C 指数分别为 0.924（95%置信区间[CI]：0.894-0.952）、0.903（0.868-0.938）和 0.950（0.929-0.971），在验证队列中，分别为 0.811（0.707-0.914）、0.901（0.824-0.977）和 0.907（0.836-0.979）。建立了一个包含 15 个预测因子的多预测列线图，该列线图具有较高的个体 TTP 预测准确性，C 指数为 0.950（0.929-0.971）。

数据结论

使用放射组学-临床-实验室模型和多预测列线图可以准确预测从 MCI 到 AD 的个体 TTP。

证据水平

3 技术功效：2

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基于磁共振成像放射组学、临床和实验室检查的早期阿尔茨海默病个体化预测：一项 60 个月随访研究。

Individualized Prediction of Early Alzheimer's Disease Based on Magnetic Resonance Imaging Radiomics, Clinical, and Laboratory Examinations: A 60-Month Follow-Up Study.

机构信息

出版信息

BACKGROUND

PURPOSE

STUDY TYPE

POPULATION

ASSESSMENT

STATISTICAL TESTS

RESULTS

DATA CONCLUSION

EVIDENCE LEVEL

背景

目的

研究类型

人群

评估

统计学检验

结果

数据结论

证据水平

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