Graduate Institute of Biomedical Electronics and Bioinformatics, National Taiwan University, Taipei, Taiwan.
Eur J Radiol. 2013 Oct;82(10):e610-6. doi: 10.1016/j.ejrad.2013.06.016. Epub 2013 Jul 29.
The reproducibility of corticospinal diffusion tensor tractography (DTT) for a guideline is important before longitudinal monitoring of the therapy effects in stroke patients. This study aimed to establish the reproducibility of corticospinal DTT indices in healthy subjects and chronic hemiparetic stroke patients.
Written informed consents were obtained from 10 healthy subjects (mean age 25.8 ± 6.8 years), who underwent two scans in one session plus the third scan one week later, and from 15 patients (mean age 47.5 ± 9.1 years, 6-60 months after the onset of stroke, NIHSS scores between 9 and 20) who were scanned thrice on separate days within one month. Diffusion-tensor imaging was performed at 3T with 25 diffusion directions. Corticospinal tracts were reconstructed using fiber assignment by continuous tracking without and with motion/eddy-current corrections. Intra- and inter-rater as well as intra- and inter-session variations of the DTT derived indices (fiber number, apparent diffusion coefficient (ADC), and fractional anisotropy (FA)) were assessed.
Intra-session and inter-session coefficients of variations (CVs) are small for FA (1.13-2.09%) and ADC (0.45-1.64%), but much larger for fiber number (8.05-22.4%). Inter-session CVs in the stroke side of patients (22.4%) are higher than those in the normal sides (18.0%) and in the normal subjects (14.7%). Motion/eddy-current correction improved inter-session reproducibility only for the fiber number of the infarcted corticospinal tract (CV reduced from 22.4% to 14.1%).
The fiber number derived from corticospinal DTT shows substantially lower precision than ADC and FA, with infarcted tracts showing lower reproducibility than the healthy tissues.
在对脑卒中患者进行治疗效果的纵向监测之前,皮质脊髓扩散张量轨迹(DTT)指南的可重复性非常重要。本研究旨在建立健康受试者和慢性偏瘫脑卒中患者的皮质脊髓 DTT 指数的可重复性。
10 名健康受试者(平均年龄 25.8±6.8 岁)在一个会话中进行了两次扫描,并在一周后进行了第三次扫描,另外 15 名患者(平均年龄 47.5±9.1 岁,脑卒中发病后 6-60 个月,NIHSS 评分为 9-20)在一个月内的不同天进行了三次扫描,均获得了书面知情同意。使用 25 个扩散方向在 3T 上进行扩散张量成像。使用无运动/涡流校正和有运动/涡流校正的连续跟踪纤维分配法重建皮质脊髓束。评估 DTT 衍生指数(纤维数量、表观扩散系数(ADC)和各向异性分数(FA))的观察者内和观察者间、以及会话内和会话间的变异性。
FA(1.13-2.09%)和 ADC(0.45-1.64%)的会话内和会话间变异系数(CV)较小,但纤维数量(8.05-22.4%)的 CV 较大。患者病变侧的会话间 CV(22.4%)高于正常侧(18.0%)和正常受试者(14.7%)。运动/涡流校正仅改善了梗死皮质脊髓束纤维数量的会话间可重复性(CV 从 22.4%降低到 14.1%)。
与 ADC 和 FA 相比,皮质脊髓 DTT 得出的纤维数量的精密度要低得多,病变部位的纤维数量比健康组织的可重复性低。
