Lauronen Leena, Nevalainen Päivi, Wikström Heidi, Parkkonen Lauri, Okada Yoshio, Pihko Elina
BioMag Laboratory, Helsinki University Central Hospital, HUCH, Helsinki, Finland.
Neuroimage. 2006 Oct 15;33(1):195-203. doi: 10.1016/j.neuroimage.2006.06.041. Epub 2006 Sep 5.
The development of the early component of somatosensory evoked potentials (SEPs) from the neonatal N1 to adult N20 response has previously been described. The main emphasis has been on the change in the response latency during maturation. We used magnetoencephalography (MEG) to characterize the cortical generators of the N1 and the subsequent response in healthy human newborns. Furthermore, we studied the maturation of tactile processing according to responses evoked by tactile stimulation of the index finger in newborns, 6-month-old babies and adults. This study provides evidence of specific differences in the somatosensory processing in neonates compared to that in adults. Although the initial cortical response to electrical median nerve stimulation in the newborns was similar in field distribution to the corresponding N20m in adults, the subsequent major deflection in the response waveform had the opposite polarity. Similar immaturity in cortical processing was seen in the tactile evoked fields in both the newborns and the 6-month-old infants compared with the adults. Our results indicate that although the somatosensory pathway in full-term newborns is sufficiently developed to supply the brain with tactile information, the cortical neuronal networks for processing the input may not function in the same way as in adults.
先前已有关于体感诱发电位(SEP)早期成分从新生儿N1反应发展到成人N20反应的描述。主要重点在于成熟过程中反应潜伏期的变化。我们使用脑磁图(MEG)来表征健康人类新生儿中N1及其后续反应的皮质发生器。此外,我们根据新生儿、6个月大婴儿和成人食指触觉刺激所诱发的反应,研究了触觉处理的成熟情况。这项研究提供了证据,表明新生儿与成人在体感处理方面存在特定差异。尽管新生儿对正中神经电刺激的初始皮质反应在场分布上与成人相应的N20m相似,但反应波形随后的主要偏转具有相反的极性。与成人相比,新生儿和6个月大婴儿的触觉诱发场中也出现了类似的皮质处理不成熟情况。我们的结果表明,尽管足月新生儿的体感通路已充分发育,能够为大脑提供触觉信息,但处理输入信息的皮质神经元网络的功能可能与成人不同。
