弥散张量成像评估儿童和青少年时期的白质成熟度。
Diffusion-tensor imaging assessment of white matter maturation in childhood and adolescence.
机构信息
Department of Radiology, Konkuk University School of Medicine, Konkuk University Medical Center, Seoul, South Korea.
出版信息
AJR Am J Roentgenol. 2011 Sep;197(3):704-12. doi: 10.2214/AJR.10.6382.
OBJECTIVE
The purpose of this study was to test a first hypothesis that fractional anisotropy (FA) and apparent diffusion coefficient (ADC) values continue to change in late childhood and adolescence and a second hypothesis that less mature white matter (WM) regions have a higher rate of change than WM regions that are relatively more mature.
SUBJECTS AND METHODS
Eighty-seven healthy children (50 girls, 37 boys; mean age, 11.2 ± 3.6 years; range, 4.2-17.7 years) underwent six-direction diffusion-tensor imaging with a 3-T MRI system. Three neuroradiologists independently drew regions of interest in 10 WM regions and measured FA and ADC values. To test the first hypothesis, we correlated these values with subject age by linear regression analysis (p < 0.05). To test the second hypothesis, we determined whether regions with lower FA and higher ADC in the 4- to 7-year old group had a higher slope of FA increase and ADC decrease over the entire age range. For this assessment, we used linear regression analysis (p < 0.05) and curve fitting.
RESULTS
In the test of the first hypothesis, increases in FA with age were noted in all WM regions and were statistically significant in six regions. Decreases in ADC values with age were noted in all brain regions except the genu of the corpus callosum. In all other regions except the splenium of the corpus callosum, the decreases were statistically significant. In the test of the second hypothesis, the relation between FA in the 4- to 7-year-old subjects and the FA increase in the entire sample was best described with a linear equation. The rate of age-related FA increase tended to be greater with lower initial FA (r = -0.384, p = 0.271). The relation between ADC in the 4- to 7-year-old subjects and ADC decrease in the entire population was best described with a second-order equation. The rate of age-related ADC decrease tended to be greater with higher initial ADC (r = 0.846, p = 0.001). For ADC values of 100 or less at age 4-7 years, the rate of ADC change with age tended to be decrease as initial ADC increased.
CONCLUSION
In general, both hypotheses were verified. Overall, FA values continue to increase and ADC values continue to decrease during childhood and adolescence. The most rapid changes were found in WM regions that were least mature in the first few years of the study period.
目的
本研究旨在验证两个假设,第一个假设是各向异性分数(FA)和表观扩散系数(ADC)值在儿童晚期和青春期持续变化,第二个假设是不成熟的白质(WM)区域比相对成熟的 WM 区域变化更快。
方法
87 名健康儿童(50 名女孩,37 名男孩;平均年龄 11.2 ± 3.6 岁;范围 4.2-17.7 岁)接受了 3T MRI 系统的六向扩散张量成像。三位神经放射科医生独立在 10 个 WM 区域画出感兴趣区,并测量 FA 和 ADC 值。为了验证第一个假设,我们通过线性回归分析(p < 0.05)将这些值与受试者年龄相关联。为了验证第二个假设,我们确定了在 4 至 7 岁组中 FA 值较低和 ADC 值较高的区域,其 FA 增加斜率和 ADC 降低斜率在整个年龄范围内是否更高。为此评估,我们使用线性回归分析(p < 0.05)和曲线拟合。
结果
在第一个假设的检验中,所有 WM 区域的 FA 均随年龄增加而增加,其中 6 个区域具有统计学意义。除胼胝体膝部外,所有脑区的 ADC 值均随年龄下降。在除胼胝体压部以外的所有其他区域,这种下降具有统计学意义。在第二个假设的检验中,4 至 7 岁组的 FA 值与整个样本的 FA 增加之间的关系最好用线性方程描述。初始 FA 值越低,FA 随年龄增加的速率越高(r = -0.384,p = 0.271)。4 至 7 岁组的 ADC 值与整个人群的 ADC 降低之间的关系最好用二次方程描述。初始 ADC 值越高,ADC 随年龄降低的速率越高(r = 0.846,p = 0.001)。对于 4 至 7 岁时 ADC 值为 100 或以下的个体,初始 ADC 值增加时,ADC 随年龄的变化率趋于降低。
结论
一般来说,两个假设都得到了验证。总的来说,FA 值在儿童期和青春期持续增加,ADC 值持续降低。在研究初期的几年中,WM 区域最不成熟,其变化最快。
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