Developmental characteristics of event-related potentials P3a and P3b on attention cognitive function in school-age children
10.3760/cma.j.cn371468-20200526-01404
- VernacularTitle:学龄期儿童注意认知事件相关电位P3a与P3b的发展特征
- Author:
Yili ZHANG
;
Yanling REN
;
Jing CAI
;
Yu CHEN
;
Ling MA
;
Yuqi CHEN
;
Peng GAO
;
Suhong WANG
- From:
Chinese Journal of Behavioral Medicine and Brain Science
2021;30(2):145-149
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To investigate the characteristics of event-related potentials(ERPs)P300 in the development of attention cognitive function of school-age children.Methods:A total of 180 school-age children were divided into 3 groups according to their ages (7-8 years old group with 48 cases, 9-10 years old group with 44 cases and 11-12 years old group with 48 cases). All of the participants completed an Oddball task, and their behavioral data, P3a and P3b components of ERPs were analyzed by SPSS 21.0.Results:(1)The differences of hit numbers(49(47.25, 50), 50(49, 50), 50(50, 50) ), correct reaction time((533.37±56.94) ms, (486.91±61.12) ms, (411.55±51.97) ms), and Omission errors (2(1, 4), 2(1, 3), 1(0, 2) ) among the three groups were statistically significant( F/χ 2=20.635, 54.477, 13.169, all P<0.01). (2)There was a main effect of age( F=3.884, P=0.023) and an interaction effect between age and condition( F=3.314, P=0.038) on the amplitude of P3a, while the main effect of condition was not significant( F=0.111, P=0.740). The amplitude of P3a component in 11-12 years old group ((11.02±6.00)μV) was significantly larger than that of 7-8 years old group ((7.36±4.48)μV) and 9-10 years old group ((7.76±5.17)μV, both P<0.05). However, there was no significant interaction effect between age and condition on P3a latency, P3b amplitude and latency ( P>0.05). Conclusion:P3a may be a sensitive indicator of cognitive function in school-age children, and the age of 11-12 years old is a sensitive period for the development of children's attention orientation and selection ability, which may be related to the development of brain network.
