Gage Nicole M, Siegel Bryna, Roberts Timothy P L
Biomagnetic Imaging Laboratory, San Francisco, CA, USA.
Brain Res Dev Brain Res. 2003 Sep 10;144(2):201-9. doi: 10.1016/s0165-3806(03)00172-x.
Latency of electric (e.g., P1 and N1) and magnetic (e.g., M100) auditory evoked components depends on age in typically developing children, with longer latencies for younger (4-6 years) and shorter, adult-like latencies for older (14-16 years) children. Age-related changes in evoked components provide indirect measures of auditory system maturation and reflect changes that occur during development. We use magnetoencephalography (MEG) to investigate maturational changes in cortical auditory systems in left (LH) and right (RH) hemispheres in children with autism disorder (AD) and CONTROLS. We recorded auditory evoked responses over left and right temporal lobes in 17 Control and 15 AD children in the age range 8-16 years and measured M100 latency as a function of age, subject group and hemisphere. Linear regression analyses of age and M100 latency provided an estimate of the rate of latency change (ms/year) by hemisphere and subject group.
M100 latency for the group ranged from 100.8 to 166.1 ms and varied linearly in both hemispheres, decreasing at a rate of -4 ms/year (LH) and -4.5 ms/year (RH). AD: M100 latency ranged from 116.2 to 186.2 ms. Slopes of regression lines did not differ from zero in either LH or RH. M100 latency showed a tendency to vary with age in LH, decreasing at a rate of -4.6 ms/year. M100 latency in RH increased slightly (at a rate of 0.8 ms/year) with age. Results provide evidence for a differential auditory system development in AD children which may reflect abnormalities in cortical maturational processes in AD.
在发育正常的儿童中,电(如P1和N1)和磁(如M100)听觉诱发电位成分的潜伏期取决于年龄,年龄较小(4 - 6岁)的儿童潜伏期较长,而年龄较大(14 - 16岁)的儿童潜伏期较短,接近成人水平。诱发电位成分的年龄相关变化为听觉系统成熟提供了间接测量方法,并反映了发育过程中发生的变化。我们使用脑磁图(MEG)来研究自闭症谱系障碍(AD)儿童和对照组儿童左(LH)、右(RH)半球皮质听觉系统的成熟变化。我们记录了17名对照组和15名年龄在8 - 16岁的AD儿童左右颞叶的听觉诱发电反应,并测量了M100潜伏期作为年龄、受试者组和半球的函数。对年龄和M100潜伏期进行线性回归分析,得出了每个半球和受试者组潜伏期变化率(毫秒/年)的估计值。
该组的M100潜伏期在100.8至166.1毫秒之间,在两个半球均呈线性变化,左半球以 - 4毫秒/年的速度下降,右半球以 - 4.5毫秒/年的速度下降。
AD组:M100潜伏期在116.2至186.2毫秒之间。左半球或右半球的回归线斜率与零无差异。左半球的M100潜伏期显示出随年龄变化的趋势,以 - 4.6毫秒/年的速度下降。右半球的M100潜伏期随年龄略有增加(以0.8毫秒/年的速度)。结果为AD儿童听觉系统的差异发育提供了证据,这可能反映了AD中皮质成熟过程的异常。
