Electromagnetic navigation-guided neuroendoscopic removal of radiation-induced intraforniceal cavernoma as a late complication of medulloblastoma treatment

Neuroendoscopic Surgery for Intraventricular Cavernous Malformations: A Review on Indications and Surgical Considerations

BACKGROUND

Intraventricular cavernous malformations (IVCs) are rare vascular lesions of the central nervous system. Surgical resection remains a challenging endeavor, with conventional microsurgical techniques associated with morbidity due to direct brain tissue manipulation. Neuroendoscopic approaches offer a minimally invasive alternative, though their efficacy and safety in treating IVCs remain underexplored.

METHODS

A narrative review was conducted to analyze all documented cases of IVCs treated exclusively with endoscopic transventricular approaches. Reviews, original research papers, and case reports published from 1990 to May 2024 were included. When available, surgical videos were also reviewed.

RESULTS

Seventeen patients with IVCs primarily located in the foramen of Monro were identified. The mean size of the IVCs was 17 mm (range: 7-29 mm). Neuroendoscopic procedures achieved gross total resection in all cases, leading to the resolution of clinical symptoms. Except for one patient who experienced memory impairment postsurgery, no persistent neurological dysfunctions were observed. Intraoperative bleeding, a significant challenge in IVC resection, was managed with continuous warm irrigation and dedicated coagulation instruments. Additionally, 6 cases of neuroendoscopic procedures such as endoscopic third ventriculostomy and septum pellucidotomy were reported for managing hydrocephalus.

CONCLUSIONS

Neuroendoscopic surgery offers several advantages in treating IVCs, including minimally invasive access, precise visualization, and reduced brain tissue manipulation. Our findings support the efficacy and safety of endoscopic transventricular approaches, underscoring its potential as a valuable therapeutic strategy for selected IVCs.

Radiation-induced cavernoma in pediatric CNS tumors: a systematic review and treatment paradigm

PURPOSE

This retrospective systematic literature review aimed to summarize available data regarding epidemiology, etiology, presentation, investigations, differentials, treatment, prevention, monitoring, complications, and prognosis for radiation-induced cavernous malformations (RICMs) in pediatric patients.

METHODOLOGY

Review conducted per PRISMA guidelines. Google Scholar, PubMed, Trip Medical Database, and Cochrane Library searched utilizing a keyphrase, articles filtered per inclusion/exclusion criteria, duplicates excluded. Based on criteria, 25 articles identified, 7 further excluded from the systematic data but included in discussion (5 × insufficient data, 2 × other systematic reviews).

RESULTS

Many studies did not contain all explored data. 2487 patients reviewed, 325 later found to have RICM (143 male, 92 female). Mean age at irradiation 7.6 years (range 1.5-19). Mean total radiation dose 56 Gy (12-112). Most common indications for radiation-medulloblastoma 133x, astrocytoma 23x, ependymoma 21x, germinoma 19x. Mean age at RICM diagnosis 18 years (3.6-57). Mean latency to RICM 9.9 years (0.25-41). Most common anatomic locations-temporal 36, frontal 36, parietal 13, basal ganglia 16, infratentorial 20. Clinical presentation-incidental 270, seizures 19, headache 11, focal neurological deficit 7, other 13. 264 patients observed, 34 undergone surgery. RICM bled in 28 patients. Mean follow-up 11.7 years (0.5-50.3). Prognostic reporting highly variable.

CONCLUSIONS

From our data, pediatric RICMs appear to display slight male predominance, present about 10 years after initial irradiation in late teen years, and present incidentally in majority of cases. They are mostly operated on when they bleed, with incidental lesions mostly being observed over time. Further prospective detailed studies needed to draw stronger conclusions.

Radiation-Induced Cerebral Cavernous Malformations: A Single-Center Experience and Systematic Literature Review

OBJECTIVE

Radiation was first demonstrated to be associated with cavernomagenesis in 1992. Since then, a growing body of literature has shown the unique course and presentation of radiation-induced cavernous malformations (RICMs). This study summarizes the literature on RICMs and presents a single-center experience.

METHODS

A prospectively maintained single institution vascular malformation database was searched for all cases of intracranial cavernous malformation (January 1, 1997-December 31, 2021). For patients with a diagnosis of RICM, information on demographic characteristics, surgical treatments, radiation, and surgical outcomes was obtained and analyzed. A comprehensive literature search was conducted using PubMed, Embase, Cochrane, and Web of Science databases for all reported cases of RICM.

RESULTS

A retrospective review of 1662 patients treated at a single institution yielded 10 patients with prior radiation treatment in the neck or head region and a subsequent diagnosis of intracranial RICM. The median (interquartile range) latency between radiation and presentation was 144 (108-192) months. Nine of 10 patients underwent surgery; symptoms improved for 5 patients, worsened for 3, and were stable for 1. The systematic literature review yielded 64 publications describing 248 patients with RICMs. Of the 248 literature review cases, 71 (28.6%) involved surgical resection. Of 39 patients with reported surgical outcomes, 32 (82%) experienced improvement.

CONCLUSIONS

RICMs have a unique course and epidemiology. RICMs should be considered when patients with a history of radiation present with neurologic impairment. When RICMs are identified, symptomatic patients can be treated effectively with surgical excision and close follow-up.

Virtual endoscopy assisted pure ventriculoscopic resection of cavernomas occluding foramen of Monroe: Technical note and literature review

OBJECTIVE

Cavernomas at Foramen of Monroe (FoM) are rare cases among the intracranial cavernomas. Pure ventriculoscopic removal of cavernoma at FoM through a single burr hole is challenging and rarely reported.

METHODS

We herein introduced the virtual endoscopy (VE) assisted ventriculoscopic resection to treat the cavernomas at FoM. Two cases diagnosed with cavernomas at FoM, a 31-year-old male patient (case 1) and a 26-year-old male patient (case 2), were included. Both of them suffered from headache, nausea and vomiting. The pre-operative MRI revealed masses at the FoM. We reconstructed the VE on a free and open-source platform (3D Slicer) for the pre-surgical evaluation. And then ventriculoscopic operation through a single burr hole was made to remove the cavernomas at FoM.

RESULTS

The VE displayed a 14×19×16 mm lesion in case 1 and an 18×20×29 mm lesion in case 2 and both cases revealed some attachment between the lesions and the periventricular tissue. The ventriculoscopic operations indicated by VE were performed to achieve total resection of the cavernomas without neurological deficit.

CONCLUSIONS

Although the neuroendoscopic treatment to cavernoma at FoM through a single burr hole was rarely reported among the previous literatures, it was a quite effective and useful method in our cases. And the application of VE before ventriculoscopic operation could help to provide a three-dimensional and panorama view of the intraventricular lesions.

Adult giant cerebellar cavernous malformations: case report and review of the literature

Cavernous malformations are vascular malformations that can occur anywhere in the central nervous system (CNS). Giant cavernous malformations (GCM) are extremely rare in adults, especially in the posterior fossa. Herein, we described a 48-year-old male who presented with vertigo and postural instability for three months. Neuroimaging revealed a 131.15 cm3 heterogeneous midline upper cerebellar lesion. After a suboccipital craniotomy, a gross total resection (GTR) was accomplished. Histopathologic examination revealed a huge cavernous malformation. Only 27 GCM adult cases were reported in the English-based literature. Only two patients had cerebellar lesions and, to the best of our knowledge, this is the first case of cerebellar vermis GCM. We concluded that cerebellar GCM (CGCM) in adults are exceedingly rare and indolent lesions. These lesions can radiologically and clinically mimic neoplastic lesions that have to be considered in the differential diagnosis. GTR is the mainstay of treatment and, whenever possible, should be attempted.

Endoscopic Resection of Hemorrhaged Third Ventricle Cavernous Malformation: 2-Dimensional Operative Video

Cavernous malformations of the third ventricle are uncommon vascular lesions. Evidence suggests that cavernous malformations in this location might have a more aggressive natural history due to their risk of intraventricular hemorrhage and hydrocephalus.1 The gold standard of treatment is considered to be microsurgical gross total resection of the lesion. However, with progressive improvement in endoscopic capabilities, several authors have recently advocated for the role of minimally-invasive neuroendoscopy for resecting intraventricular cavernous malformations.2-4 In this timely intraoperative video, we demonstrate the gross total resection of a third ventricle cavernous malformation that presented with hemorrhage via a right-sided trans-frontal neuroendoscopic approach.