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使用 3D 经颅超声和单侧重建进行帕金森病检测的基线研究。

A baseline study for detection of Parkinson's disease with 3D-transcranial sonography and uni-lateral reconstruction.

机构信息

Department of Neurology, Ludwig-Maximilians-University, Marchioninistr. 15, 81667 Munich, Germany.

Department of Neurology, Ludwig-Maximilians-University, Marchioninistr. 15, 81667 Munich, Germany.

出版信息

J Neurol Sci. 2019 Feb 15;397:16-21. doi: 10.1016/j.jns.2018.12.001. Epub 2018 Dec 3.

DOI:10.1016/j.jns.2018.12.001
PMID:30579060
Abstract

INTRODUCTION

TCS is a well-established technique for diagnosis of Parkinson's disease (PD). Volumetric 3D-TCS is a promising complementary approach for objective acquisition and analysis, in particular for less experienced sonographers. This study provides baselines for Parkinson detection (sensitivity and specificity), cutoff values and inter-rater agreement in 3D-TCS.

METHODS

We performed 3D-TCS in 52 subjects (healthy controls and PD) bilaterally, and reconstructed in 3D space uni-laterally. Ipsi-lateral hyperechogenicities in the substantia nigra are manually segmented slice-by-slice in the 3D volume by two raters at different experience levels. ROC threshold analysis is performed and compared on features representing 3D volume and axial cross-sections (2.5D) of hyperechogenicities. Pearson correlation and intra-class correlation coefficients were evaluated for assessment of inter-rater agreement.

RESULTS

50 subjects were included. Both raters achieved high classification accuracy with 2.5D/3D features extracted from 3D-TCS volumes (best results sensitivity/specificity/cut-off per rater: 84.6%/88.9%/25.0mm; 77.8%/88.9%/95.9mm). The inter-rater agreement in 3D was high (ICC(A,1) = 0.777, p < 10), the classification performance of both sonographers was statistically not significantly different.

CONCLUSION

The study presents first baseline values for uni-lateral 3D-TCS examination, and finds no disadvantage of uni-lateral reconstructions compared to previous bi-lateral fusion. Volumetric 3D-TCS has potential for a high inter-rater agreement and accuracy in detection of PD, in particular for sonographers with less experience.

摘要

简介

TCS 是一种成熟的帕金森病(PD)诊断技术。容积式 3D-TCS 是一种很有前途的客观采集和分析方法,特别是对经验较少的超声医师。本研究为 3D-TCS 帕金森病检测(灵敏度和特异性)、截断值和观察者间一致性提供了基线。

方法

我们对 52 名受试者(健康对照和 PD)进行双侧 3D-TCS 检查,并在单侧进行三维重建。两名经验水平不同的观察者在 3D 容积中逐一切片手动分割苍白球的同侧高回声。对代表 3D 容积和高回声轴位横断面(2.5D)的特征进行 ROC 阈值分析和比较。评估观察者间一致性的皮尔逊相关系数和组内相关系数。

结果

共纳入 50 名受试者。两位观察者均通过从 3D-TCS 容积中提取的 2.5D/3D 特征获得了较高的分类准确性(最佳结果的灵敏度/特异性/截止值/观察者:84.6%/88.9%/25.0mm;77.8%/88.9%/95.9mm)。3D 观察者间一致性较高(ICC(A,1) = 0.777,p < 10),两位超声医师的分类性能无统计学差异。

结论

本研究首次提出了单侧 3D-TCS 检查的基线值,且单侧重建与以前的双侧融合相比没有劣势。容积式 3D-TCS 在帕金森病检测中具有较高的观察者间一致性和准确性,特别是对经验较少的超声医师。

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