LC Campbell Cognitive Neurology Research Unit, Sunnybrook Health Sciences Centre, Toronto, ON, Canada.
Brain Topogr. 2013 Jan;26(1):35-8. doi: 10.1007/s10548-012-0228-z. Epub 2012 May 6.
Lesion Explorer (LE) is a reliable and comprehensive MRI-derived tissue segmentation and brain region parcellation processing pipeline for obtaining intracranial tissue and subcortical hyperintensity (SH) volumetrics. The processing pipeline segments: gray (GM) and white matter (WM); sulcal (sCSF) and ventricular cerebrospinal fluid (vCSF); periventricular (pvSH) and deep white subcortical hyperintensities (dwSH); and cystic fluid filled lacunar-like infarcts (Lacunar); into 26 regions of interest. A short-term scan-rescan reliability test was performed on 20 healthy volunteers: 10 older (mean = 77.7 years, SD = 11.1) and 10 younger (mean = 29.4 years, SD = 7.1). Each participant was scanned twice with an average interscan interval of 15.4 days (range: 29 min-50 days). Results suggest low technique-related error as indicated by excellent intraclass correlation coefficient (ICC) results, with ICCs above 0.90 (p < 0.05) for GM, WM, and CSF, in all 26 regions of interest (13 per hemisphere). Ventricular and lesion sub-type (pvSH, dwSH, and Lacunar) volumes also showed high scan-rescan reliability (dwSH = 0.9998, pvSH = 0.9998, Lacunar = 0.9859, p < 0.01). As indicated by the results of this short-term scan-rescan study, the LE structural MRI processing pipeline can be applied for longitudinal volumetric analyses with confidence.
病变探测仪(LE)是一个可靠且全面的基于磁共振成像(MRI)的组织分割和脑区划分处理管道,可用于获取颅内组织和皮质下高信号(SH)容积。该处理管道可分割:灰质(GM)和白质(WM);脑沟(sCSF)和脑室内脑脊液(vCSF);脑室周围(pvSH)和深部白质皮质下高信号(dwSH);囊性腔隙样梗死灶(Lacunar)中的含液腔隙。将其划分为 26 个感兴趣区。我们对 20 名健康志愿者进行了短期的扫描-再扫描可靠性测试:10 名老年人(平均年龄 77.7 岁,标准差 11.1)和 10 名年轻人(平均年龄 29.4 岁,标准差 7.1)。每位参与者平均间隔 15.4 天(范围:29 分钟-50 天)进行两次扫描。结果表明,技术相关误差较低,提示优秀的组内相关系数(ICC)结果,所有 26 个感兴趣区(每侧 13 个)的 GM、WM 和 CSF 的 ICC 均高于 0.90(p<0.05)。脑室和病变亚型(pvSH、dwSH 和 Lacunar)的体积也显示出较高的扫描-再扫描可靠性(dwSH=0.9998,pvSH=0.9998,Lacunar=0.9859,p<0.01)。如短期扫描-再扫描研究的结果所示,LE 结构 MRI 处理管道可以应用于纵向体积分析。
