VLSM 是否是确定大脑功能解剖结构的有效工具？附加贝叶斯网络分析的有用性。

Is VLSM a valid tool for determining the functional anatomy of the brain? Usefulness of additional Bayesian network analysis.

机构信息

Laboratory of Functional Neurosciences, Amiens University Hospital, France; Departments of Neurology, Amiens University Hospital, France.

Laboratory of Functional Neurosciences, Amiens University Hospital, France.

出版信息

Neuropsychologia. 2018 Dec;121:69-78. doi: 10.1016/j.neuropsychologia.2018.10.003. Epub 2018 Oct 25.

DOI:10.1016/j.neuropsychologia.2018.10.003

PMID:30449718

Abstract

OBJECTIVES

The ability of voxel-based lesion-symptom mapping (VLSM) to define the functional anatomy of the human brain has not been fully assessed. With a view to assessing VLSM's validity, the present study analyzed the technique's ability to determine the known clinical-anatomic correlates of hemiparesis in stroke patients.

DESIGN

Lesions (damaged in at least 5 patients) associated with transformed limb motor score (after adjustment on lesion volume) at 6 months were examined in 272 patients using VLSM. The value of additional multivariable linear, logistic and Bayesian analyses was examined.

RESULTS

We first checked that motor hemiparesis was fully accounted for by corticospinal tract (CST) lesions (sensitivity = 100%; p = 0.0001). Conventional VLSM analysis flagged up 2 regions corresponding to the CST, but also 8 regions located outside the CST. All 10 brain regions achieving statistical significance in the VLSM analysis were submitted to 3 additional analyses. The backward linear regression analysis selected 5 regions, one only corresponding to the CST (R: 0.03, p = 0.0008). The logistic regression analysis selected correctly the CST (OR: 2.39, 95%CI: 1.44-3.96; 0.001). The Bayesian network analysis selected regions including the CST (in 92% of 3000 bootstrap replications) and identified the source of multicollinearity. These lesions evaluated by structural equation modeling resulted in an excellent fit (p-value = 0.228, chi/df = 1.19, RMSEA = 0.032, CFI = 0.999). Analyses of confusion factors showed that conventional VLSM analyses were strongly influenced by lesion frequency (R = 0.377; p = 0.0001) and multicollinearity.

CONCLUSIONS

Conventional VLSM analyses are sensitive but weakened by a type I error due to the combined effects of multicollinearity and lesion frequency. We demonstrate that the addition of a Bayesian network analysis, and to a lesser extent of logistic regression, controlled for this type I error and constituted a reliable means of defining the functional anatomy of the motor system in stroke patients.

摘要

目的

体素基于病变-症状映射（VLSM）定义人类大脑功能解剖的能力尚未得到充分评估。为了评估 VLSM 的有效性，本研究分析了该技术确定中风患者偏瘫的已知临床-解剖相关性的能力。

设计

使用 VLSM 检查 272 例患者的病变（至少 5 例患者损伤）与 6 个月时转化的肢体运动评分相关（经病变体积校正后）。检查了多元线性、逻辑和贝叶斯分析的附加值。

结果

我们首先检查了皮质脊髓束（CST）病变完全解释了运动性偏瘫（敏感性= 100%；p = 0.0001）。传统的 VLSM 分析标记了 2 个与 CST 对应的区域，但也标记了 8 个位于 CST 之外的区域。VLSM 分析中达到统计学意义的 10 个脑区均进行了 3 项额外分析。后向线性回归分析选择了 5 个区域，只有一个仅对应 CST（R：0.03，p = 0.0008）。逻辑回归分析正确选择了 CST（OR：2.39，95%CI：1.44-3.96；0.001）。贝叶斯网络分析选择了包括 CST 的区域（在 3000 次 bootstrap 复制中的 92%），并确定了多重共线性的来源。结构方程模型评估的这些病变导致了良好的拟合（p 值= 0.228，chi/df = 1.19，RMSEA = 0.032，CFI = 0.999）。混淆因素分析表明，传统的 VLSM 分析受到类型 I 错误的强烈影响，这是由于多重共线性和病变频率的综合影响。我们证明，增加贝叶斯网络分析，在较小程度上增加逻辑回归，可以控制这种类型的 I 错误，并构成定义中风患者运动系统功能解剖的可靠方法。

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VLSM 是否是确定大脑功能解剖结构的有效工具？附加贝叶斯网络分析的有用性。

Is VLSM a valid tool for determining the functional anatomy of the brain? Usefulness of additional Bayesian network analysis.

机构信息

出版信息

OBJECTIVES

DESIGN

RESULTS

CONCLUSIONS

目的

设计

结果

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