Evleksiz Karimzada Demet, Can Ezgu Mehmet, Karimzada Gardashkhan, Izci Yusuf
Department of Neurosurgery, Gulhane School of Medicine, University of Health Sciences, Ankara, Turkey.
Department of Neurosurgery, Gulhane School of Medicine, University of Health Sciences, Ankara, Turkey.
World Neurosurg. 2024 Nov;191:e80-e91. doi: 10.1016/j.wneu.2024.08.068. Epub 2024 Aug 15.
Endoscopic management of pediatric hydrocephalus is always challenging because of the different anatomical structure of the ventricles. The aim of this study is to document the endoscopic anatomy of the ventricular system and to show the variations and deformations.
The study included 84 children who underwent endoscopic surgery for the treatment of hydrocephalus in the department of neurosurgery between 2017 and 2022. All preoperative and postoperative radiological images and intraoperative video recordings were retrospectively analyzed. Anatomy of the lateral ventricles and the third ventricle, variations, and deformations were detected and evaluated in detail.
The mean age of the patients was 7.6 months. Myelomeningocele-encephalocele-associated hydrocephalus was the most common cause of hydrocephalus (38%), followed by postventriculitis in 21%, posthemorrhagic in 21%, and obstructive causes in 20% of cases, respectively. Endoscopic anomaly/variation or deformation was detected in 83% of all cases. Based on the preoperative radiological images, septum pellucidum anomaly/variation or deformation was the most common radiological finding in 64% of the cases. Lateral ventricle anomaly/variation or deformation was noted in 62% of the cases, and third ventricle anomaly/variation or deformation was observed as a radiological finding in 27% of the cases.
The compliance of the brain deteriorates with increasing intracranial pressure in pediatric hydrocephalus and the intraventricular anatomical structures differ from the normal anatomy. Developmental anomalies of the ventricle are also significant and since all these variations are often unpredictable on preoperative imaging, awareness of endoscopic anatomy, variations, and deformations will improve operative safety in children.
由于脑室解剖结构不同,小儿脑积水的内镜治疗一直具有挑战性。本研究的目的是记录脑室系统的内镜解剖结构,并展示其变异和畸形情况。
本研究纳入了2017年至2022年间在神经外科接受内镜手术治疗脑积水的84例儿童。对所有术前和术后的放射影像以及术中视频记录进行回顾性分析。详细检测并评估侧脑室和第三脑室的解剖结构、变异及畸形情况。
患者的平均年龄为7.6个月。脊髓脊膜膨出-脑膨出相关脑积水是脑积水最常见的病因(38%),其次分别是脑室炎后(21%)、出血后(21%)以及梗阻性病因(20%)。在所有病例中,83%检测到内镜下异常/变异或畸形。根据术前放射影像,透明隔异常/变异或畸形是64%病例中最常见的放射学表现。62%的病例中发现侧脑室异常/变异或畸形,27%的病例中观察到第三脑室异常/变异或畸形作为放射学表现。
小儿脑积水时,随着颅内压升高,脑顺应性下降,脑室内解剖结构与正常解剖结构不同。脑室发育异常也很显著,由于所有这些变异在术前影像学检查中往往不可预测,了解内镜解剖结构、变异和畸形将提高儿童手术的安全性。
