Neuroendoscopic surgery in neonates - indication and results over a 10-year practice

Managing hydrocephalus in 54 infants under 3 months of age: A single center cohort study

PURPOSE

Managing hydrocephalus in infants can be very challenging. The most used permanent hydrocephalus treatment in young patients is a ventriculoperitoneal shunt (VPS) placement. Obstructive hydrocephalus in selected young patients can be treated with endoscopic third ventriculostomy (ETV). However, in infants less than 6 months of age, the outcome of both procedures remains to be bothered with complications, revision surgeries and long-term shunt dependency. This retrospective study analyzes the management of hydrocephalus in 54 very young infants with different etiological causes.

METHODS

Data was collected retrospectively from a single center university hospital over a 5-year period (2018-2022). All patients under 3 months of age with progressive ventriculomegaly confirmed by cranial ultrasound (cUS), who required neurosurgical intervention, were eligible for this study. Hydrocephalus was treated with serial tapping from a ventricular access device (VAD), placement of ventriculoperitoneal shunts and/or performing a thulium laser-assisted ETV.

RESULTS

Twelve patients benefited sufficiently from a VAD to normalize ventricular volume lastingly. Forty-two patients required permanent treatment (28 underwent a VPS; 14 an ETV if there was obstructive hydrocephalus) at an average age of 2.5 months. The VPS failure rate was 32.1% and the ETV failure rate was 50%. Although not significantly different, patients with failed ETV tended to be younger than patients with successful ETV (p = 0.38). One week before permanent ETV treatment, relatively large ventricular volumes were measured in failed ETV patients, as compared to successful ETVs.

CONCLUSIONS

Managing hydrocephalus in very young infants remains challenging regarding surgical strategy, reducing shunt dependency and decreasing current complication rates. In addition to a VPS, an ETV has shown to be a successful treatment option for hydrocephalus in well-selected very young infants. The opportunity to decrease ventricular volume with a VAD could have contributed to the success of an ETV in this young patient group.

Endoscopic management of pediatric complex hydrocephalus-a procedure survival analysis and clinico-radiological outcome study using ventricular volumetry

OBJECTIVES

To evaluate the survival of endoscopic procedures performed for complex hydrocephalus, quantify clinical outcomes in standardized scales, and assess correlation with radiological outcomes using ventricular volumetry.

METHODS

A retrospective analysis of patients with complex hydrocephalus, managed with neuroendoscopic procedures at a tertiary neurosurgical center over 20 years, was performed. In addition to demographic and clinical details, pre-operative and follow-up clinical status (using the Pediatric Functional Status Score (FSS) and Pediatric Cerebral Performance Category (PCPC) Scales) was assessed. Procedure failure was defined as any subsequent surgical procedure for the management of hydrocephalus and survival as time from the first endoscopic procedure to failure or last available follow-up. Ventricular volume and ventricle:brain volume ratio was calculated using serial imaging.

RESULTS

We analyzed 40 pediatric patients who met the study criteria with a mean age of 19 months, the most common subtype being post-meningitic multiloculated hydrocephalus (70%). The median survival of an endoscopic procedure was 24 months (5.7-33.6 months). Over a median follow-up duration of 15 months, 28 days (2.2-111 months), median FSS improved by 5 points, and median PCPC score improved from 4 (severe disability) to 3 (moderate disability). Over a median radiological follow-up of 5.9 months, the median percentage decrease in ventricle size was 27.14%, and the ventricle:brain volume ratio was 30.57%. A strong positive correlation (r = 0.58-0.75) was noted between the decrease in ventricular volume and ventricle:brain ratio with improvement in FSS and PCPC scores.

CONCLUSIONS

Endoscopic procedures, although effective in managing complex hydrocephalus, may not be a one-stop long-term solution, which we have described in terms of procedure survival. Objective scales and ventricular volumetry to quantify clinical and radiological improvement demonstrated a significant correlation, even in complex hydrocephalus. The potential of ventricular volumetry as a prognostic factor in complex hydrocephalus is postulated.

Technical note: durable resolution of hydrocephalus after ultrasound-guided percutaneous fenestration of giant suprasellar arachnoid cyst in a neonate

Arachnoid cysts are relatively common, but rarely require intervention. While most arachnoid cysts in typical middle or posterior cranial fossa locations are seldom symptomatic, suprasellar cysts may become symptomatic due to the potential for ventricular outflow obstruction and hydrocephalus. Typical standard of care for the treatment of these lesions is endoscopic fenestration with third ventriculostomy, or the placement of ventriculoperitoneal or cystoperitoneal shunts. The surgical and anaesthetic risks of traditional interventions may be higher in the early neonatal period, including leak of cerebrospinal fluid, infection, and premature failure of ventriculostomy or shunts. This note describes a novel bedside ultrasound-guided technique to percutaneously fenestrate large suprasellar arachnoid cysts under local anaesthesia. The technique involves insertion of a 25-g spinal needle until contact with the membrane of the arachnoid cyst medially, followed by a lateral sweeping to widely incise/fenestrate the lesion into the ventricular space under continuous ultrasound visualisation. This note describes an example case which demonstrates durable radiological and clinical improvement after 2 years of follow-up. This may represent a management option to temporise, or perhaps definitively manage suprasellar arachnoid cysts in the neonatal period.

Experience in endoscope choice for neuroendoscopic lavage for intraventricular hemorrhage of prematurity: a systematic review

OBJECTIVE

Intraventricular hemorrhage (IVH) of prematurity occurs in 20-38% of infants born < 28 weeks gestational age and 15% of infants born in 28-32 weeks gestational age. Treatment has evolved from conservative management and CSF diversion of temporizing and shunting procedures to include strategies aimed at primarily clearing intraventricular blood products. Neuroendoscopic lavage (NEL) aims to decrease the intraventricular blood burden under the same anesthetic as temporizing CSF diversion measures in cases of hydrocephalus from IVH of prematurity. Given the variety of neuroendoscopes, we sought to review the literature and practical considerations to help guide neuroendoscope selection when planning NEL.

METHODS

We conducted a systematic review of the literature on neuroendoscopic lavage in IVH of prematurity to examine data on the choice of neuroendoscope and outcomes regarding shunt rate. We then collected manufacturer data on neuroendoscopic devices, including inflow and outflow mechanisms, working channel specifications, and tools compatible with the working channel. We paired this information with the advantages and disadvantages reported in the literature and observations from the experiences of pediatric neurosurgeons from several institutions to provide a pragmatic evaluation of international clinical experience with each neuroendoscope in NEL.

RESULTS

Eight studies were identified; four neuroendoscopes have been used for NEL as reported in the literature. These include the Karl Storz Flexible Neuroendoscope, LOTTA® system, GAAB system, and Aesculap MINOP® system. The LOTTA® and MINOP® systems were similar in setup and instrument options. Positive neuroendoscope features for NEL include increased degrees of visualization, better visualization with the evolution of light and camera sources, the ability to sterilize with autoclave processes, balanced inflow and outflow mechanisms via separate channels, and a working channel. Neuroendoscope disadvantages for NEL may include special sterilization requirements, large outer diameter, and limitations in working channels.

CONCLUSIONS

A neuroendoscope integrating continuous irrigation, characterized by measured inflow and outflow via separate channels and multiple associated instruments, appears to be the most commonly used technology in the literature. As neuroendoscopes evolve, maximizing clear visualization, adequate inflow, measured outflow, and large enough working channels for paired instrumentation while minimizing the footprint of the outer diameter will be most advantageous when applied for NEL in premature infants.

Neuroendoscopic Lavage and Third Ventriculostomy for the Treatment of Intraventricular Hemorrhage and Hydrocephalus in Neonates. A Prospective Study with 18 Months of Follow-Up

BACKGROUND

 Neonatal intraventricular hemorrhage (IVH) may evolve into posthemorrhagic hydrocephalus and cause neurodevelopmental impairment, becoming a common complication of premature infants, occurring in up to 40% of preterm infants weighing less than 1,500 g at birth. Around 10 to 15% of preterm infants develop severe (grades III-IV) IVH. These infants are at high risk of developing posthemorrhagic hydrocephalus. Neuroendoscopic lavage (NEL) is a suitable alternative for the management of this pathology. In this study, an endoscopic surgical approach directed toward the removal of intraventricular hematoma was evaluated for its safety and efficacy.

METHODS

 Between August 2016 and December 2019 (29 months), 14 neonates with posthemorrhagic hydrocephalus underwent NEL for removal of intraventricular blood by a single senior neurosurgeon. Complications such as reintervention and ventriculoperitoneal (VP) shunt placement were evaluated prospectively with an 18-month follow-up on average.

RESULTS

 In total, 14 neonates with IVH grades III and IV were prospectively recruited. Of these, six neonates did not need a VP shunt in the follow-up after neuroendoscopy (group 1), whereas eight neonates underwent a VP shunt placement (group 2). Nonsignificant difference between the groups was found concerning days after neuroendoscopy, clot extraction, third ventriculostomy, lamina terminalis fenestration, and septum pellucidum fenestration. In group 2, there was shunt dysfunction in five cases with shunt replacement in four cases.

CONCLUSION

 NEL is a feasible technique to remove intraventricular blood degradation products and residual hematoma in neonates suffering from posthemorrhagic hydrocephalus. In our series, endoscopic third ventriculostomy (ETV) + NEL could be effective in avoiding hydrocephalus after hemorrhage (no control group studied). Furthermore, patients without the necessity of VP-shunt had a better GMFCS in comparison with shunted patients.

Case Report: Occlusion of the foramen of Monro treated with endoscopic septostomy and foraminotomy in a preterm neonate

Background

Hydrocephalus is a brain abnormality frequently encountered in neonates. There are several known etiologies of hydrocephalus, which can be classified as either congenital or acquired. Occlusion of the foramen of Monro (FOM) is a cause of hydrocephalus and can be either congenital or secondary to various disorders. Idiopathic obstruction of the FOM presenting as prenatal ventriculomegaly is extremely rare but has been reported.

Case presentation

We present the case of a preterm newborn with severe bilateral hydrocephalus due to FOM occlusion in the prenatal period. Although the neonate had normal head circumference and no clinical symptoms after birth, brain sonography revealed progressive ventriculomegaly. Further image revealed bilateral ventriculomegaly with normal-sized third and fourth ventricles. We suspected a complete obstruction of the right and a partial obstruction of the left of the FOM. The neonate underwent endoscopic septostomy and foraminotomy, resulting in improvement.

Conclusion

We report a case of preterm FOM occlusion in the youngest and smallest neonate to date. Endoscopic septostomy and foraminotomy were performed in order to avoid ventriculoperitoneal shunt-related complications, highlighting the viability of endoscopic procedures which should be the primary treatment in preterm neonates with FOM occlusion.

Intracranial Neuroendoscopy in Children and Adults: Where Do the Differences Lie?

BACKGROUND

Intraventricular neuroendoscopy has evolved into an essential adjunct in neurosurgery and is used across all age groups for various indications. However, studies comparing neuroendoscopic procedures between children and adults are scarce. The aim of this study is to compare various aspects between adults and children undergoing neuroendoscopy.

METHODS

We retrospectively analyzed the data from consecutive patients dichotomized into 2 cohorts, pediatric (age <18 years) and adult (age ≥18 years) groups, in whom intracranial neuroendoscopy was performed between 2013 and 2020 (pediatric group) and 2010 and 2020 (adult group).

RESULTS

Of 132 patients who underwent intracranial neuroendoscopic surgery, 47 (35.6%) were children and 85 (64.4%) were adults. The most common indications for the children and adults were intraventricular or paraventricular tumors (23.4%) and aqueduct stenosis (40%), respectively. Their clinical condition at the last follow-up was unchanged or improved for 90.5% of the children and 92.1% of the adults. An increased endoscopic third ventriculostomy success score was predictive of endoscopic third ventriculostomy success in the pediatric cohort (odds ratio, 1.073; P = 0.043). The postoperative rates of transient (pediatric, 23.4%; adult, 18.8%) and permanent (pediatric, 0%; adult, 1.2%) complications were comparable. The rate of secondary surgery was higher for the pediatric cohort (38.3%) than for the adult cohort (17.6%).

CONCLUSIONS

The indications for neuroendoscopy vary between adults and children, although the long-term clinical outcome is comparable. The rate of secondary surgery is significantly higher for pediatric patients, especially for those aged <1 year. Because neuroendoscopy is considerably more frequent in pediatric patients, including pediatric neurosurgeons in adult neuroendoscopic cases could potentially help lower the complication rates and increase the success rates.

New insights into the management of post-hemorrhagic hydrocephalus

During the last decade, an increasing number of studies have been conducted to improve the outcome of post-hemorrhagic hydrocephalus (PHH), a complication of severe intraventricular hemorrhage (IVH) in preterm infants. Two randomized controlled trials have shown that treatment should be initiated prior to the onset of clinical symptoms. Ventricular access devices and subgaleal shunts are used as temporary neurosurgical interventions whereas ventriculoperitoneal shunts are performed for infants with progressive hydrocephalus. Recently, techniques such as neuro-endoscopic lavage have also been introduced to eliminate toxic blood products and debris from the cerebral ventricles and have shown promise in early clinical studies. The objective of this review is to provide an update on management of PHVD and PHH in the preterm infant.

Neuroendoscopic lavage versus traditional surgical methods for the early management of posthemorrhagic hydrocephalus in neonates

OBJECTIVE

Despite advances observed in neonatal neurosurgery, treatment of posthemorrhagic hydrocephalus (PHH) remains a major challenge. This study aims to observe the outcomes of the application of the neuroendoscopic method for treating early-stage posthemorrhagic hydrocephalus.

METHODS

A total of 60 medical cases were studied retrospectively. From 2016-2021, the patients were treated at the neonatal intensive care unit (NICU). As an initial neurosurgical intervention, 19 neonates (A) underwent neuroendoscopic lavage (NEL) of the ventricular system and evacuation of posthemorrhagic debris via ventricular washout. A total of 36 neonates (B) were treated via traditional surgical methods, out of which 24 neonates underwent ventricular reservoir implantation (VAD) and 12 underwent ventriculostomy (EVD). Of the 60 patients, there were 5 neonates (C), who were treated directly by ventriculoperitoneal (VP) shunting after serial ventricular/lumbar punctures. As the inclusion and surgical criteria were significantly different for this group, their data were evaluated separately. Accordingly, these patients were divided into three (A, B, and C) groups.

RESULTS

The gestational age of group A neonates (31 weeks) was slightly higher than the gestational age of group B (29.1 weeks). During their hospitalization, 15 neonates (78.94%) from group A and 26 (83.87%) neonates from group B required shunting. In group B, 5 patients (12.19%) died before the need for shunting occurred. No lethal outcomes were observed in group A, and 9 (25%) patients from group B died during hospitalization. In group A, central nervous system (CNS) infections developed in 3 patients, which is much less than the 18 patients in group B. NEL was found to give better neurological outcomes in patients with intraventricular hemorrhages. Serial ventricular/lumbar puncture can be used as a life-saving manipulation in very unstable patients to temporarily decreasing intracranial pressure. Its frequent use is associated with brain parenchymal damage and poor neurological outcome.

CONCLUSION

The neuroendoscopic method of treating neonatal posthemorrhagic hydrocephalus is a safe and effective one. Its application reduces the period of patient hospital stay, the incidence of meningitis, and the frequency of development of multiloculated hydrocephalus.