Hale Andrew T, Stanton Amanda N, Zhao Shilin, Haji Faizal, Gannon Stephen R, Arynchyna Anastasia, Wellons John C, Rocque Brandon G, Naftel Robert P
1Surgical Outcomes Center for Kids, Monroe Carell Jr. Children's Hospital at Vanderbilt, Nashville.
2Medical Scientist Training Program, Vanderbilt University School of Medicine, Nashville, Tennessee.
J Neurosurg Pediatr. 2019 Jul 1;24(1):41-46. doi: 10.3171/2019.2.PEDS18743. Epub 2019 Apr 19.
At failure of endoscopic third ventriculostomy (ETV) with choroid plexus cauterization (CPC), the ETV ostomy may be found to be closed or open. Failure with a closed ostomy may indicate a population that could benefit from evolving techniques to keep the ostomy open and may be candidates for repeat ETV, whereas failure with an open ostomy may be due to persistently abnormal CSF dynamics. This study seeks to identify clinical and radiographic predictors of ostomy status at the time of ETV/CPC failure.
The authors conducted a multicenter, retrospective cohort study on all pediatric patients with hydrocephalus who failed initial ETV/CPC treatment between January 2013 and October 2016. Failure was defined as the need for repeat ETV or ventriculoperitoneal (VP) shunt placement. Clinical and radiographic data were collected, and ETV ostomy status was determined endoscopically at the subsequent hydrocephalus procedure. Statistical analysis included the Mann-Whitney U-test, Wilcoxon rank-sum test, t-test, and Pearson chi-square test where appropriate, as well as multivariate logistic regression.
Of 72 ETV/CPC failures, 28 patients (39%) had open-ostomy failure and 44 (61%) had closed-ostomy failure. Patients with open-ostomy failure were older (median 5.1 weeks corrected age for gestation [interquartile range (IQR) 0.9-15.9 weeks]) than patients with closed-ostomy failure (median 0.2 weeks [IQR -1.3 to 4.5 weeks]), a significant difference by univariate and multivariate regression. Etiologies of hydrocephalus included intraventricular hemorrhage of prematurity (32%), myelomeningocele (29%), congenital communicating (11%), aqueductal stenosis (11%), cyst/tumor (4%), and other causes (12%). A wider baseline third ventricle was associated with open-ostomy failure (median 15.0 mm [IQR 10.3-18.5 mm]) compared to closed-ostomy failure (median 11.7 mm [IQR 8.9-16.5 mm], p = 0.048). Finally, at the time of failure, patients with closed-ostomy failure had enlargement of their ventricles (frontal and occipital horn ratio [FOHR], failure vs baseline, median 0.06 [IQR 0.00-0.11]), while patients with open-ostomy failure had no change in ventricle size (median 0.01 [IQR -0.04 to 0.05], p = 0.018). Previous CSF temporizing procedures, intraoperative bleeding, and time to failure were not associated with ostomy status at ETV/CPC failure.
Older corrected age for gestation, larger baseline third ventricle width, and no change in FOHR were associated with open-ostomy ETV/CPC failure. Future studies are warranted to further define and confirm features that may be predictive of ostomy status at the time of ETV/CPC failure.
在内镜下第三脑室造瘘术(ETV)联合脉络丛烧灼术(CPC)失败时,ETV造瘘口可能处于闭合或开放状态。造瘘口闭合导致的失败可能提示一部分患者可从不断发展的保持造瘘口开放的技术中获益,并且可能是再次行ETV的候选者,而造瘘口开放导致的失败可能是由于脑脊液动力学持续异常。本研究旨在确定ETV/CPC失败时造瘘口状态的临床和影像学预测因素。
作者对2013年1月至2016年10月期间初次ETV/CPC治疗失败的所有小儿脑积水患者进行了一项多中心回顾性队列研究。失败定义为需要再次行ETV或置入脑室腹腔(VP)分流管。收集临床和影像学数据,并在随后的脑积水手术中通过内镜确定ETV造瘘口状态。统计分析包括在适当情况下进行的曼-惠特尼U检验、威尔科克森秩和检验、t检验和Pearson卡方检验,以及多因素逻辑回归分析。
在72例ETV/CPC失败病例中,28例患者(39%)为造瘘口开放失败,44例(61%)为造瘘口闭合失败。造瘘口开放失败的患者比造瘘口闭合失败的患者年龄更大(校正胎龄中位数为5.1周[四分位间距(IQR)0.9 - 15.9周]),而造瘘口闭合失败的患者校正胎龄中位数为0.2周[IQR -1.3至4.5周]),单因素和多因素回归分析均显示差异有统计学意义。脑积水的病因包括早产儿脑室内出血(32%)、脊髓脊膜膨出(29%)、先天性交通性脑积水(11%)、导水管狭窄(11%)、囊肿/肿瘤(4%)和其他原因(12%)。与造瘘口闭合失败(中位数11.7 mm[IQR 8.9 - 16.5 mm])相比,更宽的基线第三脑室与造瘘口开放失败相关(中位数15.0 mm[IQR 10.3 - 18.5 mm],p = 0.048)。最后,在失败时,造瘘口闭合失败的患者脑室增大(额枕角比值[FOHR],失败时与基线相比,中位数0.06[IQR 0.00 - 0.11]),而造瘘口开放失败的患者脑室大小无变化(中位数0.01[IQR -0.04至0.05],p = 0.018)。既往脑脊液临时处理措施、术中出血和至失败的时间与ETV/CPC失败时的造瘘口状态无关。
校正胎龄较大、基线第三脑室宽度较大以及FOHR无变化与造瘘口开放的ETV/CPC失败相关。有必要开展进一步研究以进一步明确和确认可能预测ETV/CPC失败时造瘘口状态的特征。
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