✓ Accessory human tails are uncommon malformations consisting of meningeal and neural structures and possibly occult spinal dysraphism (pseudotails). The thoracic location of a lipomeningocele constituting a pseudotail is very rare. The authors report the case of a young boy harboring a thoracic dorsal appendage consisting of a lipomeningocele and a dermoid cyst that was complicated by the presence of diastematomyelia, tethered spinal cord, syringomyelia, and mild hydrocephalus. The preoperative moderate ventricular dilation was decompressed by the surgical repair of the spinal malformation and required a specific treatment. The authors discuss the rare association of these clinical entities and conclude that complete spine and brain neuroimaging studies are necessary for the correct surgical planning of this kind of malformation.
Benedetta Ludovica Pettorini, Luca Massimi, Alessandro Cianfoni, Giovanna Paternoster, Gianpiero Tamburini and Concezio Di Rocco
Aymeric Amelot, Kevin Beccaria, Thomas Blauwblomme, Marie Bourgeois, Giovanna Paternoster, Marie-Laure Cuny, Michel Zerah, Christian Sainte-Rose and Stephanie Puget
Arachnoid cysts (ACs) are most frequently located in the middle cranial fossa. Some patients are asymptomatic whereas others exhibit signs of increased intracranial pressure, seizures, or cognitive and behavioral symptoms. When ACs do require treatment, the optimal surgical technique remains controversial. This study was conducted to assess the most effective surgical treatment for these cysts.
The authors retrospectively reviewed 240 temporal intracranial ACs managed over a 25-year period in their pediatric neurosurgical unit. Pre- and posttreatment results were clinically and radiologically assessed.
A majority of male patients (74.6%) with an overall median age of 6.9 years were included. The mean cyst size was 107 cm3; the Galassi classification showed 99 (41.3%) type I, 77 (32.1%) type II, and 64 (26.7%) type III cysts. Forty-four ACs (18.3%) were diagnosed after rupture. Surgical management was performed by microsurgery (28.3%), endoscopic cyst fenestration (14.6%), cystoperitoneal shunting (CPS; 16.2%), or subdural shunting (10%). Furthermore, 74 children (30.8%) did not undergo operations. After a mean follow-up of 4.1 years, the mean percentage decrease in cyst volume and the overall rate of clinical improvement did not significantly differ. The endoscopy group had earlier complications and a shorter event-free survival (EFS) time (EFS at 3 years = 67.7%, vs 71.5% and 90.5% for CPS and microsurgery, respectively; p < 0.007) and presented with more subdural hematomas compared to the microsurgery group (p < 0.005). The microsurgery group also showed a tendency for longer cystocisternostomy permeability than the endoscopy group.
Concerning the management of unruptured symptomatic temporal ACs, microsurgery appears to be the most effective treatment, with longer EFS and fewer complications compared to shunting or endoscopy.
Thomas Blauwblomme, Federico Di Rocco, Marie Bourgeois, Kevin Beccaria, Giovanna Paternoster, Juliette Verchere-Montmayeur, Christian Sainte-Rose, Michel Zerah and Stéphanie Puget
The ideal treatment for subdural hematomas (SDHs) in infants remains debated. The aim of this study was to analyze the safety and efficiency of subduro-subgaleal drainage in SDH.
The authors conducted a single-center open-label study between August 2011 and May 2012. Data were prospectively collected in a database and retrospectively analyzed.
Eighteen patients (male/female ratio 1.25) with a median age of 5 months were surgically treated. All had preoperative symptoms of intracranial hypertension or seizures. The SDH was bilateral in 16 cases, with a median width of 12 mm. Success of the procedure was noted in 14 of the 18 patients. There was no intraoperative complication or postoperative infection. Drainage failure was attributable to suboptimal positioning of the subdural drain in 2 cases and to migration in 1 case.
Subduro-subgaleal drainage is an efficient treatment that could be proposed as an alternative to external subdural drainage or subduroperitoneal drainage.
Thomas Blauwblomme, Olivier Naggara, Francis Brunelle, David Grévent, Stéphanie Puget, Federico Di Rocco, Kevin Beccaria, Giovanna Paternoster, Marie Bourgeois, Manoelle Kossorotoff, Michel Zerah, Christian Sainte-Rose and Nathalie Boddaert
Arterial spin labeling (ASL)-MRI is becoming a routinely used sequence for ischemic strokes, as it quantifies cerebral blood flow (CBF) without the need for contrast injection. As brain arteriovenous malformations (AVMs) are highflow vascular abnormalities, increased CBF can be identified inside the nidus or draining veins. The authors aimed to analyze the relevance of ASL-MRI in the diagnosis and follow-up of children with brain AVM.
The authors performed a retrospective analysis of 21 patients who had undergone digital subtraction angiography (DSA) and pseudo-continuous ASL-MRI for the diagnosis or follow-up of brain AVM after radiosurgery or embolization. They compared the AVM nidus location between ASL-MRI and 3D contrast-enhanced T1 MRI, as well as the CBF values obtained in the nidus (CBFnidus) and the normal cortex (CBFcortex) before and after treatment.
The ASL-MRI correctly demonstrated the nidus location in all cases. Nidal perfusion (mean CBFnidus 137.7 ml/100 mg/min) was significantly higher than perfusion in the contralateral normal cortex (mean CBFcortex 58.6 ml/100 mg/min; p < 0.0001, Mann-Whitney test). Among 3 patients followed up after embolization, a reduction in both AVM size and CBF values was noted. Among 5 patients followed up after radiosurgery, a reduction in the nidus size was observed, whereas CBFnidus remained higher than CBFcortex.
In this study, ASL-MRI revealed nidus location and patency after treatment thanks to its ability to demonstrate focal increased CBF values. Absolute quantification of CBF values could be relevant in the follow-up of pediatric brain AVM after partial treatment, although this must be confirmed in larger prospective trials.
Sarah Stricker, Grégoire Boulouis, Sandro Benichi, Florent Gariel, Lorenzo Garzelli, Kevin Beccaria, Anais Chivet, Timothee de Saint Denis, Syril James, Giovanna Paternoster, Michel Zerah, Marie Bourgeois, Nathalie Boddaert, Francis Brunelle, Philippe Meyer, Stephanie Puget, Olivier Naggara and Thomas Blauwblomme
Hydrocephalus is a strong determinant of poor neurological outcome after intracerebral hemorrhage (ICH). In children, ruptured brain arteriovenous malformations (bAVMs) are the dominant cause of ICH. In a large prospective cohort of pediatric patients with ruptured bAVMs, the authors analyzed the rates and predictive factors of hydrocephalus requiring acute external ventricular drainage (EVD) or ventriculoperitoneal shunt (VPS).
The authors performed a single-center retrospective analysis of the data from a prospectively maintained database of children admitted for a ruptured bAVM since 2002. Admission clinical and imaging predictors of EVD and VPS placement were analyzed using univariate and multivariate statistical models.
Among 114 patients (mean age 9.8 years) with 125 distinct ICHs due to ruptured bAVM, EVD and VPS were placed for 55/125 (44%) hemorrhagic events and 5/114 patients (4.4%), respectively. A multivariate nominal logistic regression model identified low initial Glasgow Coma Scale (iGCS) score, hydrocephalus on initial CT scan, the presence of intraventicular hemorrhage (IVH), and higher modified Graeb Scale (mGS) score as strongly associated with subsequent need for EVD (all p < 0.001). All children who needed a VPS had initial hydrocephalus requiring EVD and tended to have higher mGS scores.
In a large cohort of pediatric patients with ruptured bAVM, almost half of the patients required EVD and 4.4% required permanent VPS. Use of a low iGCS score and a semiquantitative mGS score as indicators of the IVH burden may be helpful for decision making in the emergency setting and thus improve treatment.