Department of Obstetrics & Gynecology, Division of Maternal-Fetal Medicine, Baylor College of Medicine & Texas Children's Hospital, Houston, TX, USA.
Department of Radiology, Lucile Packard Children's Hospital, Stanford School of Medicine, Palo Alto, CA, USA.
Ultrasound Obstet Gynecol. 2019 Mar;53(3):324-334. doi: 10.1002/uog.20212.
To determine if brain imaging in fetuses that underwent prenatal repair of neural tube defect (NTD) can predict the need for postnatal hydrocephalus treatment (HT) in the first year postpartum.
This was a retrospective study of fetuses diagnosed with open NTD that had in-utero myelomeningocele repair between April 2014 and April 2016. Independent variables were collected from four chronological sets of fetal images: presurgery ultrasound, presurgery magnetic resonance imaging (MRI), 6-week postsurgery MRI and predelivery ultrasound. The following independent variables were collected from all image sets unless otherwise noted: gestational age, head circumference, mean ventricular width, ventricular volume (MRI only), hindbrain herniation (HBH) score (MRI only), and level of lesion (LOL), defined as the upper bony spinal defect (presurgery ultrasound only). Based on these measurements, additional variables were defined and calculated including change in degree of HBH, ventricular width growth (mm/week) and ventricular volume growth (mL/week). The need for HT (by either ventriculoperitoneal shunt or endoscopic third ventriculostomy with choroid plexus cauterization) was determined by a pediatric neurosurgeon using clinical and radiographic criteria; a secondary analysis was performed using the MOMS trial criteria for hydrocephalus. The predictive value of each parameter was assessed by receiver-operating characteristics curve and logistic regression analyses.
Fifty affected fetuses were included in the study, of which 32 underwent open hysterotomy and 18 fetoscopic repair. Two neonates from the open hysterotomy group died and were excluded from the analysis. The mean gestational ages for the presurgery ultrasound, presurgery MRI, postsurgery MRI and predelivery ultrasound were 21.8 ± 2.1, 22.0 ± 1.8, 30.4 ± 1.6 and 31.0 ± 4.9 weeks, respectively. A total of 16 subjects required HT. The area under the curve (AUC) of predictive accuracy for HT showed that HBH grading on postsurgery MRI had the strongest predictive value (0.86; P < 0.01), outperforming other predictors such as postsurgery MRI ventricular volume (0.73; P = 0.03), MRI ventricular volume growth (0.79; P = 0.01), change in HBH (0.82; P = 0.01), and mean ventricular width on predelivery ultrasound (0.73; P = 0.01). Other variables, such as LOL, mean ventricular width on presurgery ultrasound, mean ventricular width on presurgery and postsurgery MRI, and ventricular growth assessment by MRI or ultrasound, had AUCs < 0.7. Optimal cut-offs of the variables with the highest AUC were evaluated to improve prediction. A combination of ventricular volume growth ≥ 2.02 mL/week and/or HBH of 3 on postsurgery MRI were the optimal cut-offs for the best prediction (odds ratio (OR), 42 (95% CI, 4-431); accuracy, 84%). Logistic regression analyses showed that persistence of severe HBH 6 weeks after surgery by MRI is one of the best predictors for HT (OR, 39 (95% CI, 4-369); accuracy, 84%). There was no significant change in the results when the MOMS trial criteria for hydrocephalus were used as the dependent variable.
Persistence of HBH on MRI 6 weeks after prenatal NTD repair independently predicted the need for postnatal HT better than any ultrasound- or other MRI-derived measurements of ventricular characteristics. These results should aid in prenatal counseling and add support to the hypothesis that HBH is a significant driver of hydrocephalus in myelomeningocele patients. Copyright © 2019 ISUOG. Published by John Wiley & Sons Ltd.
确定在接受产前神经管缺陷(NTD)修复的胎儿中进行脑部成像是否可以预测产后第一年是否需要进行脑积水治疗(HT)。
这是一项回顾性研究,纳入了 2014 年 4 月至 2016 年 4 月期间接受宫内脊膜膨出修复的开放性 NTD 胎儿。收集了四个时间序列的胎儿图像的独立变量:术前超声、术前磁共振成像(MRI)、术后 6 周 MRI 和产前超声。除非另有说明,否则从所有图像集收集以下独立变量:胎龄、头围、平均脑室宽度、脑室容积(仅 MRI)、后脑疝(HBH)评分(仅 MRI)和病变水平(LOL),定义为上骨脊柱缺陷(仅术前超声)。基于这些测量值,定义并计算了其他变量,包括 HBH 程度的变化、脑室宽度增长(mm/周)和脑室容积增长(mL/周)。由儿科神经外科医生根据临床和影像学标准确定 HT(脑室腹腔分流术或内镜第三脑室造瘘术联合脉络丛烧灼术)的需求;使用 MOMS 试验脑积水标准进行了二次分析。通过接收者操作特征曲线和逻辑回归分析评估每个参数的预测值。
研究纳入了 50 名受影响的胎儿,其中 32 名接受了开放性剖腹术,18 名接受了胎儿镜修复。剖腹手术组的 2 名新生儿死亡并被排除在分析之外。术前超声、术前 MRI、术后 MRI 和产前超声的平均胎龄分别为 21.8±2.1、22.0±1.8、30.4±1.6 和 31.0±4.9 周。共有 16 名受试者需要 HT。HT 预测准确性的曲线下面积(AUC)表明,术后 MRI 的 HBH 分级具有最强的预测价值(0.86;P<0.01),优于其他预测因子,如术后 MRI 脑室容积(0.73;P=0.03)、MRI 脑室容积增长(0.79;P=0.01)、HBH 变化(0.82;P=0.01)和产前超声的平均脑室宽度(0.73;P=0.01)。其他变量,如 LOL、术前超声的平均脑室宽度、术前和术后 MRI 的平均脑室宽度以及 MRI 或超声评估的脑室生长,AUCs<0.7。评估了具有最高 AUC 的变量的最佳截断值以提高预测准确性。将术后 MRI 上的脑室容积增长≥2.02mL/周和/或 HBH 为 3 结合起来是最佳预测值(优势比(OR),42(95%CI,4-431);准确性,84%)。逻辑回归分析表明,术后 6 周 MRI 上严重 HBH 的持续存在是 HT 的最佳预测因子之一(OR,39(95%CI,4-369);准确性,84%)。当使用 MOMS 试验脑积水标准作为因变量时,结果没有明显变化。
产前 NTD 修复后 6 周时 MRI 上 HBH 的持续存在独立于任何超声或其他 MRI 脑室特征测量值更好地预测产后 HT 的需要。这些结果应有助于产前咨询,并支持 HBH 是脊膜膨出患者脑积水的重要驱动因素的假设。
