Children's Hospital of Wisconsin, Milwaukee, Wis; Medical College of Wisconsin, Milwaukee, Wis.
J Thorac Cardiovasc Surg. 2013 Nov;146(5):1153-64. doi: 10.1016/j.jtcvs.2012.12.060. Epub 2013 Jan 12.
Neonates with hypoplastic left heart syndrome have significant hemodynamic threats to cerebral perfusion and are at risk of reduced neurodevelopmental performance. We hypothesized that cerebral hypoxia, detectable by near-infrared spectroscopy in the early postoperative period, would be related to later neurodevelopmental performance.
The study population was a sequential cohort of patients who had undergone stage 1 palliation of hypoplastic left heart syndrome under standard conditions, including neonatal perioperative monitoring with cerebral near-infrared spectroscopy, and who had undergone a neurodevelopmental assessment at age 4 to 5 years. The neonatal demographic and 48-hour perioperative hemodynamic parameters, including cerebral oxygen saturation, were tested for their relationship to 4 domains of neurodevelopmental performance, including visual-motor integration in childhood in univariate and multivariate models. The neurodevelopmental scores were classified as low if less than 85 (-1 standard deviation) and abnormal if less than 70 (-2 standard deviations).
For the 51 patients in the surgical cohort, the early survival was 94%, the cumulative survival was 86%, and the neurodevelopmental assessment was completed by 21 (48%) of the survivors, without evidence of an ascertainment bias. At the test age of 56.3 ± 5.5 months, the composite neurodevelopmental index, constructed from equally weighted measures in 4 domains, was 97.6 ± 9.6, not different from the age-based norms, with 3 of 21 in the low range and none abnormal. The mean visual-motor integration was 93.4 ± 14, slightly less than the population norm (P < .05), with 2 of 21 having low scores and 1 abnormal scores. In patients with low to abnormal visual-motor integration, the perioperative stage 1 palliation cerebral oxygenation saturation was significantly lower (63.6 ± 8.1 vs 67.8 ± 8.1, P < .05). Two patients had discrete embolic strokes after their initial hospitalization; the occurrence of late stroke reduced the visual-motor integration performance but was not related to the early cerebral oxygen saturation. Nonlinear relationships of cerebral oxygen saturation to the neurodevelopmental measures found cerebral oxygen saturation thresholds of 49% to 62%. The hours at a cerebral oxygen saturation less than 45% and 55% were related to low visual-motor integration and neurodevelopmental index scores in the univariate and multivariate models. A multivariate model of age and weight at stage 1 palliation, cerebral oxygen saturation, arterial oxygen saturation, cardiopulmonary bypass and deep hypothermic circulatory arrest times, and later stroke predicted visual-motor integration to an important degree (R(2) = 0.53, P < .001). The actual and predicted visual-motor integration and neurodevelopmental index were normal when a cerebral oxygen saturation less than 45% and other risk conditions were avoided.
Neurodevelopmental performance was related to demographic, neonatal perioperative physiologic, and later factors. Perioperative cerebral oxygenation assessed by near-infrared spectroscopy can detect hypoxic-ischemic conditions associated with injury and reduced neurodevelopmental performance and was the most significant physiologic factor identified. These data suggest that efforts to avoid cerebral hypoxia are likely to improve the outcomes in this high-risk population.
患有左心发育不全综合征的新生儿存在严重的脑灌注血流动力学威胁,且存在神经发育表现降低的风险。我们假设,在术后早期通过近红外光谱检测到的脑缺氧与后期神经发育表现相关。
该研究人群为接受标准条件下一期左心发育不全综合征姑息手术的连续队列患者,包括新生儿围手术期接受脑近红外光谱监测,以及在 4 至 5 岁时接受神经发育评估。在单变量和多变量模型中,测试新生儿人口统计学和 48 小时围手术期血流动力学参数(包括脑氧饱和度)与 4 个神经发育表现领域之间的关系,包括儿童期视觉运动整合。如果神经发育评分低于 85(-1 个标准差),则将其分类为低,如果低于 70(-2 个标准差),则将其分类为异常。
51 例手术队列患者的早期存活率为 94%,累积存活率为 86%,21 名幸存者(48%)完成了神经发育评估,无明显选择偏倚。在 56.3±5.5 个月的测试年龄时,由 4 个领域同等权重测量构建的综合神经发育指数为 97.6±9.6,与年龄相关的正常水平无差异,21 名中有 3 名处于低水平范围,无异常。平均视觉运动整合为 93.4±14,略低于人群正常值(P<0.05),21 名中有 2 名得分较低,1 名得分异常。在视觉运动整合得分较低或异常的患者中,一期姑息性治疗期间的脑氧饱和度明显较低(63.6±8.1 vs 67.8±8.1,P<0.05)。两名患者在初始住院后发生了离散性栓塞性中风;晚期中风的发生降低了视觉运动整合表现,但与早期脑氧饱和度无关。脑氧饱和度与神经发育测量值的非线性关系发现,脑氧饱和度阈值为 49%至 62%。在单变量和多变量模型中,脑氧饱和度低于 45%和 55%的时间与低视觉运动整合和神经发育指数评分相关。多变量模型包括一期姑息性手术时的年龄和体重、脑氧饱和度、动脉氧饱和度、心肺转流和深低温循环停止时间,以及后期中风,对视觉运动整合有重要的预测作用(R²=0.53,P<0.001)。当避免脑氧饱和度低于 45%和其他风险条件时,实际和预测的视觉运动整合和神经发育指数正常。
神经发育表现与人口统计学、新生儿围手术期生理和后期因素有关。通过近红外光谱评估的围手术期脑氧合可以检测到与损伤和神经发育表现降低相关的缺氧缺血情况,是确定的最重要的生理因素。这些数据表明,努力避免脑缺氧可能会改善这一高危人群的预后。
