Iyer Rajiv R, Carey Carolyn M, Rottgers S Alex, Tetreault Lisa, Shimony Nir, Katzenstein Jennifer, Ruas Ernesto, Tuite Gerald F
1Institute for Neuroscience and Brain Protection.
2Department of Neurosurgery and Brain Repair, Morsani College of Medicine, University of South Florida, Tampa, Florida.
J Neurosurg Pediatr. 2018 May;21(5):486-495. doi: 10.3171/2017.11.PEDS17173. Epub 2018 Mar 2.
OBJECTIVE Infants with severe hydrocephalus and extreme macrocephaly typically undergo CSF diversion early in life, which can result in significant cranial deformity due to CSF overdrainage. In this scenario, overlap of the cranial plates can precede the development of secondary synostosis and/or severe, permanent cranial deformity. As a result, extensive cranial vault remodeling is sometimes undertaken later in life, which is often challenging and has been associated with mortality and a high morbidity rate. The authors have previously described a technique for early postnatal cranial vault reduction and fixation (CVRF), in which the calvarial bones are stabilized using absorbable fixation plates in the neonatal period, in an attempt to facilitate patient positioning, simplify hydrocephalus management, and improve cosmesis. Here, the authors describe their institutional experience managing patients with extreme neonatal hydrocephalus with CSF diversion, with and without CVRF, over the past 12 years. METHODS The authors retrospectively reviewed the charts of infants with extreme hydrocephalus (head circumference > 49 cm) treated at their children's hospital with ventriculoperitoneal shunting, with or without CVRF, between 2005 and 2017. Data collected included age, sex, etiology of hydrocephalus, type of CVRF performed (anterior, posterior, or combined), follow-up duration, orbitofrontal circumference, craniometric measurements, intraoperative blood loss, operative duration, and postoperative complications. Developmental data were collected using the third edition of the Ages and Stages Questionnaire. Photographic imaging was used to demonstrate esthetic outcomes, and family questionnaires were used to evaluate satisfaction with the esthetic outcome. RESULTS Eleven patients with extreme neonatal hydrocephalus underwent CSF shunting; 5 underwent shunting alone and 6 patients underwent shunting and CVRF. For patients who underwent shunting and CVRF, the median age at CVRF was 6 days and the median interval between shunt placement and CVRF was 2.5 days. The mean extent of calvarial vault volume reduction was 44.5% (± 3.9%). The mean duration of the CVRF procedure was 108 minutes, and 5 of 6 patients required intraoperative transfusion. Of the 5 patients who underwent shunting alone, 3 developed severe cranial deformities. Of 6 patients who underwent shunting and CVRF, 1 had a poor cosmetic outcome. In the shunting-alone group, 2 patients died and 1 required extensive cranial vault correction at 10 years of age. One patient in the shunting and CVRF group also died. CONCLUSIONS CVRF in combination with CSF shunting in the neonatal period can simplify the treatment of the rare case of severe hydrocephalic macrocephaly and leads to cosmetic outcomes that are considered good by their families.
目的 患有严重脑积水和极度巨头畸形的婴儿通常在生命早期接受脑脊液分流术,这可能由于脑脊液过度引流而导致严重的颅骨畸形。在这种情况下,颅骨板重叠可能先于继发性颅骨融合和/或严重的永久性颅骨畸形的发展。因此,有时会在生命后期进行广泛的颅盖重塑,这通常具有挑战性,并且与死亡率和高发病率相关。作者之前描述了一种出生后早期颅盖缩小和固定(CVRF)技术,即在新生儿期使用可吸收固定板稳定颅骨,以利于患者体位摆放、简化脑积水管理并改善美观。在此,作者描述了他们在过去12年中管理患有极度新生儿脑积水并接受脑脊液分流术(无论是否进行CVRF)的患者的机构经验。方法 作者回顾性分析了2005年至2017年间在其儿童医院接受脑室腹腔分流术(无论是否进行CVRF)的极度脑积水(头围>49 cm)婴儿的病历。收集的数据包括年龄、性别、脑积水病因、所进行的CVRF类型(前部、后部或联合)、随访时间、眶额周长、颅骨测量、术中失血量、手术时间和术后并发症。使用《年龄与发育阶段问卷》第三版收集发育数据。使用摄影成像展示美学效果,并使用家庭问卷评估对美学效果的满意度。结果 11例患有极度新生儿脑积水的患者接受了脑脊液分流术;5例仅接受分流术,6例接受分流术和CVRF。对于接受分流术和CVRF的患者,CVRF时的中位年龄为6天,分流放置与CVRF之间的中位间隔为2.5天。颅骨穹窿体积缩小的平均程度为44.5%(±3.9%)。CVRF手术的平均持续时间为108分钟,6例患者中有5例需要术中输血。在仅接受分流术的5例患者中,3例出现严重颅骨畸形。在接受分流术和CVRF的6例患者中,1例美学效果不佳。在仅分流术组中,2例患者死亡,1例在10岁时需要进行广泛的颅盖矫正。分流术和CVRF组中有1例患者也死亡。结论 新生儿期CVRF联合脑脊液分流术可简化罕见的严重脑积水性巨头畸形病例的治疗,并产生其家庭认为良好的美学效果。
