Application of amplitude integrated electroencephalography in cerebral function monitoring in preterm infants younger than 30 weeks of gestation
10.3760/cma.j.issn.1673-4912.2019.06.010
- VernacularTitle:振幅整合脑电图在胎龄小于30周早产儿脑功能监测中的意义
- Author:
Zhiyong LIU
1
;
Ruiquan WANG
;
Lianqiang WU
;
Dongmei CHEN
Author Information
1. 泉州市儿童医院新生儿科 362000
- Keywords:
Amplitude integrated electroencephalography;
Pretrem infant;
Brain injury;
Neonatal
- From:
Chinese Pediatric Emergency Medicine
2019;26(6):441-446
- CountryChina
- Language:Chinese
-
Abstract:
Objective To explore the value of amplitude integrated electroencephalography (aEEG) in cerebral function monitoring in preterm infants younger than 30 weeks of gestation. Methods A total of 165 cases of preterm infants younger than 30 weeks of gestation were prospectively enrolled in the study from September 2015 to February 2017,including 20 preterm infants with severe brain injury ( severe brain injury group) and 145 with non-severe brain injury ( non-severe brain injury group). Five aspects of each tracing, such as continuity(Co),sleep-wake cycling( Cy),amplitude of the lower border(LB),bandwidth( B) and total maturation scores,were evaluated and compared between two groups by applying a preterm infants aEEG scoring system. The neuromotor development of preterm infants survivors was assessed by using the 0 to 6 years old children′s neurological and psychological development scale of China Capital Institute of Pediatrics. Clinical data were collected and compared with the results of aEEG. Results The scores for Co,Cy,LB,B as well as total maturation scores of preterm infants with severe brain injury at different gestational age were lower than those of infants with non-severe brain injury at the same gestational age. The differences were sta-tistically significant (all P<0. 05). There were no statistical differences in Co,Cy,LB,B scores and total maturation scores between each gestational ages in severe brain injury group (all P>0. 05). Scores for Co, Cy,B and total maturation scores progressively increased with advancing gestational age in non-severe brain injury group( all P <0. 05),but there were no statistical differences between each gestational ages in LB scores(all P>0. 05). Follow-up results of 16 cases with severe brain injury:15 cases of DQ≤69,1 case of DQ 70-84,and no cases of DQ≥85; 130 cases of non-severe brain injury group:78 case of DQ≥85,42 cases of DQ 70-84,10 cases of DQ≤69. By chi-square analysis and Spearman rank correlation analysis,the results of aEEG total maturation scores were correlated with outcome of these preterm infants younger than 30 weeks of gestation ( r =0. 702,P <0. 05). Conclusion aEEG can provide important information of the status of cerebral function in preterm infants younger than 30 weeks of gestation and help to predict their outcome.
