Division of Cardiology, Department of Pediatrics, Children's Hospital Los Angeles, Los Angeles, Calif.
Heart Institute, Cincinnati Children's Hospital Medical Center, Cincinnati, Ohio.
J Thorac Cardiovasc Surg. 2017 Sep;154(3):1038-1044. doi: 10.1016/j.jtcvs.2017.05.045. Epub 2017 May 23.
To characterize cerebral autoregulation (CA) in preoperative newborn infants with congenital heart disease (CHD).
This was a prospective, pilot study of term newborns with CHD who required intensive care. Continuous mean arterial blood pressure (MAP), cerebral tissue oxygen saturation (SO) via near-infrared spectroscopy, and arterial oxygen saturation (SaO) were collected. Significant low-frequency coherence between MAP and SO was used to define impaired CA in 20-minute epochs. Cerebral fractional tissue oxygen extraction (FTOE) = (SaO - SO)/SaO was calculated. Spearman's and rank bi-serial correlations and logistic linear models accounting for multiple measures were used to identify associations with impaired CA and coherence.
Twenty-four term neonates were evaluated for 23.4 ± 1.8 hours starting the first day of life. Periods of SaO variability >5% were excluded, leaving 63 ± 10 epochs per subject, 1515 total for analysis. All subjects demonstrated periods of abnormal CA, mean 15.3% ± 12.8% of time studied. Significant associations with impaired CA per epoch included greater FTOE (P = .02) and lack of sedation (P = .02), and associations with coherence included greater FTOE (P = .03), lack of sedation (P = .03), lower MAP (P = .006), and lower hemoglobin (P = .02).
Term newborns with CHD display time-varying CA abnormalities. Associations seen between abnormal CA and greater FTOE, lack of sedation, and lower hemoglobin suggest that impaired oxygen delivery and increased cerebral metabolic demand may overwhelm autoregulatory capacity in these infants. Further studies are needed to determine the significance of impaired CA in this population.
描述患有先天性心脏病(CHD)的术前新生儿的脑自动调节(CA)特征。
这是一项针对需要重症监护的患有 CHD 的足月新生儿的前瞻性、初步研究。连续采集平均动脉血压(MAP)、近红外光谱的脑组织氧饱和度(SO)和动脉氧饱和度(SaO)。使用 MAP 和 SO 之间的显著低频相干性来定义 20 分钟时段内的 CA 受损。计算脑分比组织氧提取(FTOE)=(SaO-SO)/SaO。使用 Spearman 和等级双序列相关以及考虑多个测量的逻辑线性模型来识别与 CA 受损和相干性相关的因素。
从出生第一天开始,对 24 名足月新生儿进行了 23.4±1.8 小时的评估。排除 SaO 变异性 >5%的时间段,每个受试者留下 63±10 个时间段,总共有 1515 个时间段进行分析。所有受试者均表现出异常 CA 期,占研究时间的 15.3%±12.8%。与每个时段 CA 受损相关的显著因素包括更大的 FTOE(P=0.02)和缺乏镇静(P=0.02),与相干性相关的因素包括更大的 FTOE(P=0.03)、缺乏镇静(P=0.03)、更低的 MAP(P=0.006)和更低的血红蛋白(P=0.02)。
患有 CHD 的足月新生儿显示出时间变化的 CA 异常。异常 CA 与更大的 FTOE、缺乏镇静和更低的血红蛋白之间的关联表明,在这些婴儿中,供氧受损和脑代谢需求增加可能会超过自动调节能力。需要进一步研究以确定该人群中 CA 受损的意义。
