早产和足月儿的晚期体感诱发电位。II. 地形图与潜伏期发育。

The late somatosensory evoked potential in premature and term infants. II. Topography and latency development.

作者信息

Karniski W, Wyble L, Lease L, Blair R C

机构信息

Department of Pediatrics, University of South Florida College of Medicine, Tampa 33612.

出版信息

Electroencephalogr Clin Neurophysiol. 1992 Jan-Feb;84(1):44-54. doi: 10.1016/0168-5597(92)90067-l.

DOI:10.1016/0168-5597(92)90067-l

PMID:1370403

Abstract

The maturation of latency and scalp voltage topography of the simultaneously bilateral somatosensory evoked potential was studied in 53 neurologically intact pre-term and term infants, from 31 to 40 weeks post-menstrual age. Four peaks (N1, P1, N2 and P2) were reliably identified in all infants. The latency of each peak decreased as the infants matured. Each peak had a unique voltage scalp topography that remained stable as infants matured, even though the maps changed in amplitude intensity. N2 was large, easily identifiable with a central peak, and extremely stable in topography, suggesting that it might be used to evaluate the functional status of the somatosensory cortex in pre-term and term infants who are at high risk for developing intracranial hemorrhage leading to abnormalities of tone and delays in motor development.

摘要

对53名神经功能正常的早产和足月婴儿进行了研究，这些婴儿的月经龄在31至40周之间，研究内容为双侧体感诱发电位的潜伏期成熟度和头皮电压地形图。在所有婴儿中均可靠地识别出四个波峰（N1、P1、N2和P2）。随着婴儿的成熟，每个波峰的潜伏期均缩短。每个波峰都有独特的头皮电压地形图，随着婴儿的成熟保持稳定，尽管图谱的振幅强度有所变化。N2波较大，在中央有一个明显的波峰，且地形图极其稳定，这表明它可用于评估早产和足月婴儿的体感皮层功能状态，这些婴儿有发生颅内出血导致肌张力异常和运动发育迟缓的高风险。

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早产和足月儿的晚期体感诱发电位。II. 地形图与潜伏期发育。

The late somatosensory evoked potential in premature and term infants. II. Topography and latency development.

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