Department of Neonatology, University Medical Centre Utrecht, Utrecht, Netherlands.
Pediatric and Neonatology Unit, Maggiore Hospital, ASST Crema, Crema, Italy.
Lancet Digit Health. 2023 Dec;5(12):e895-e904. doi: 10.1016/S2589-7500(23)00198-X. Epub 2023 Nov 6.
Extremely preterm infants (<28 weeks of gestation) are at great risk of long-term neurodevelopmental impairments. Early amplitude-integrated electroencephalogram (aEEG) accompanied by raw EEG traces (aEEG-EEG) has potential for predicting subsequent outcomes in preterm infants. We aimed to determine whether and which qualitative and quantitative aEEG-EEG features obtained within the first postnatal days predict neurodevelopmental outcomes in extremely preterm infants.
This study retrospectively analysed a cohort of extremely preterm infants (born before 28 weeks and 0 days of gestation) who underwent continuous two-channel aEEG-EEG monitoring during their first 3 postnatal days at Wilhelmina Children's Hospital, Utrecht, the Netherlands, between June 1, 2008, and Sept 30, 2018. Only infants who did not have genetic or metabolic diseases or major congenital malformations were eligible for inclusion. Features were extracted from preprocessed aEEG-EEG signals, comprising qualitative parameters grouped in three types (background pattern, sleep-wake cycling, and seizure activity) and quantitative metrics grouped in four categories (spectral content, amplitude, connectivity, and discontinuity). Machine learning-based regression and classification models were used to evaluate the predictive value of the extracted aEEG-EEG features for 13 outcomes, including cognitive, motor, and behavioural problem outcomes, at 2-3 years and 5-7 years. Potential confounders (gestational age at birth, maternal education, illness severity, morphine cumulative dose, the presence of severe brain injury, and the administration of antiseizure, sedative, or anaesthetic medications) were controlled for in all prediction analyses.
369 infants were included and an extensive set of 339 aEEG-EEG features was extracted, comprising nine qualitative parameters and 330 quantitative metrics. The machine learning-based regression models showed significant but relatively weak predictive performance (ranging from r=0·13 to r=0·23) for nine of 13 outcomes. However, the machine learning-based classifiers exhibited acceptable performance in identifying infants with intellectual impairments from those with optimal outcomes at age 5-7 years, achieving balanced accuracies of 0·77 (95% CI 0·62-0·90; p=0·0020) for full-scale intelligence quotient score and 0·81 (0·65-0·96; p=0·0010) for verbal intelligence quotient score. Both classifiers maintained identical performance when solely using quantitative features, achieving balanced accuracies of 0·77 (95% CI 0·63-0·91; p=0·0030) for full-scale intelligence quotient score and 0·81 (0·65-0·96; p=0·0010) for verbal intelligence quotient score.
These findings highlight the potential benefits of using early postnatal aEEG-EEG features to automatically recognise extremely preterm infants with poor outcomes, facilitating the development of an interpretable prognostic tool that aids in decision making and therapy planning.
European Commission Horizon 2020.
极早产儿(<28 孕周)存在长期神经发育损伤的巨大风险。早期振幅整合脑电图(aEEG)结合原始脑电图记录(aEEG-EEG)有可能预测早产儿的后续结局。我们旨在确定在出生后最初几天内获得的定性和定量 aEEG-EEG 特征是否以及哪些特征可以预测极早产儿的神经发育结局。
本研究回顾性分析了荷兰乌得勒支威廉敏娜儿童医院于 2008 年 6 月 1 日至 2018 年 9 月 30 日期间在出生后最初 3 天内接受连续双通道 aEEG-EEG 监测的极早产儿队列(<28 周和 0 天的胎龄)。只有没有遗传或代谢疾病或重大先天性畸形的婴儿才有资格入选。从预处理的 aEEG-EEG 信号中提取特征,包括分为三类(背景模式、睡眠-觉醒循环和痫性活动)的定性参数和分为四类(频谱内容、振幅、连通性和不连续性)的定量指标。使用基于机器学习的回归和分类模型来评估提取的 aEEG-EEG 特征对 13 个结局(包括认知、运动和行为问题结局)的预测价值,这些结局在 2-3 岁和 5-7 岁时进行评估。在所有预测分析中,均控制了潜在的混杂因素(出生时的胎龄、母亲的教育程度、疾病严重程度、吗啡累积剂量、严重脑损伤的存在以及抗癫痫、镇静或麻醉药物的使用)。
纳入 369 名婴儿,并提取了广泛的 339 个 aEEG-EEG 特征,包括 9 个定性参数和 330 个定量指标。基于机器学习的回归模型对 13 个结局中的 9 个显示出显著但相对较弱的预测性能(r 值范围为 0.13 至 0.23)。然而,基于机器学习的分类器在识别 5-7 岁时具有智力障碍的婴儿与具有最佳结局的婴儿方面表现出可接受的性能,在全智商评分和言语智商评分方面的平衡准确率分别为 0.77(95%CI 0.62-0.90;p=0.0020)和 0.81(0.65-0.96;p=0.0010)。当仅使用定量特征时,这两个分类器均保持相同的性能,在全智商评分和言语智商评分方面的平衡准确率分别为 0.77(95%CI 0.63-0.91;p=0.0030)和 0.81(0.65-0.96;p=0.0010)。
这些发现突出了使用早期出生后 aEEG-EEG 特征自动识别预后不良的极早产儿的潜在益处,有助于开发一种可解释的预后工具,以帮助决策和治疗计划。
欧盟地平线 2020 计划。
