Giant tumefactive perivascular spaces mimicking a brain mass lesion: Report of three cases (original) (raw)
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Giant perivascular space: a rare cause of acute neurosurgical emergency
British Journal of Neurosurgery, 2020
We present a rare case of giant perivascular space in mesencephalo-thalamic region causing hydrocephalus. The patient presented insidiously over 6 months. However, the patient suddenly deteriorated in the hospital with visual symptoms, increasing headache and papilloedema, prompting urgent VP shunt and biopsy. Patient's symptoms resolved completely after decompression and he continues to remain symptom free. This patient is only the second described case of giant perivascular space with sudden deterioration of symptoms. This case report is intended to highlight this rare presentation of this cyst which can potentially suggest a more aggressive underlying lesion and prompt a biopsy which can be risky, given the proximity to perforators and normal structures, which is otherwise not necessary.
Giant tumefactive perivascular spaces in a pediatric patient: A rare radiological entity
Surgical Neurology International, 2021
Background: Giant tumefactive perivascular spaces (TPVS) are radiological rarities and may mimic other neurological structural lesions. Fewer than 80 cases have been reported in the literature with even fewer in the pediatric population. Case Description: The authors present an image report showcasing a 3-year-old boy presenting with uncontrolled seizures despite multiple anti-epileptic medications. His magnetic resonance imaging showed multiple, non-contrast enhancing cyst clusters within the left parieto-occipital region that was hyperintense on T2-weighted imaging, and isointense to cerebrospinal fluid. Due to a characteristic absence of perilesional edema seen on fluid-attenuated inversion recovery imaging or diffusion restriction on diffusion-weighted imaging (DWI) sequences, this was diagnosed as a giant TPVS. Conclusion: Accurate diagnosis of these rare radiological entities is based on pathognomonic findings that can help prevent unnecessary surgery and guide management for ...
Magnetic Resonance Imaging Features of Tumefactive Perivascular Spaces
Cyprus Journal of Medical Sciences, 2020
The perivascular spaces (PVSs) are pia-lined potential spaces filled with interstitial fluid (ISF) and form a network throughout the brain, which is a part of glymphatic system and helps to derange of metabolites from cerebral parenchyma. The enlarged PVSs are the most common cystic lesion of the brain and gradually become prominent with age. Literally, tumefactive PVS is the giant enlargement of PVS, measuring 15 mm and more in size, and thought to be result of blocking of the outlet of ISF for any reason. Typically, they tend to from clusters of cysts, but tumefactive forms are usually solitary. They usually have moderate mass effect and can cause obstructive hydrocephalus when located in mesencephalothalamic region. Although they don't contain cerebrospinal fluid (CSF), they have similar signal to CSF on all magnetic resonance imaging (MRI) sequences and do not enhance. These MRI features are very useful for their differential diagnosis from other congenital, infectious, ischemic and tumoral cystic/necrotic lesions. The precise diagnosis of PVS is critical to prevent patients with "leave-me-alone" lesions, from unnecessary surgical interventions.
Giant Tumefactive Perivascular Spaces
American Journal of Neuroradiology, 2005
The brain perivascular spaces (PVSs) are pial-lined, interstitial fluid-filled structures that accompany penetrating arteries. When enlarged, they may cause mass effect and can be mistaken for more ominous pathologic processes. The purpose of this study was to delineate the broad clinical and imaging spectrum of this unusual condition. METHODS: Thirty-seven cases of giant PVSs were identified from 1988 to 2004 and were retrospectively reviewed. Clinical data collected included patient demographics, presenting symptoms, and follow-up. Histopathologic data were reviewed when available. Images were evaluated for size and location of the giant PVSs, associated mass effect, hydrocephalus, adjacent white matter changes, and contrast enhancement. RESULTS: There were 24 men and 13 women with an age range of 6-86 years, (mean 46 years). The most common presenting feature was headache (15 patients). Thirty-two cases had multilocular clusters of variably sized cysts. Five lesions were unilocular. All lesions had signal intensity comparable to CSF and did not enhance. The most common location for the giant PVSs was the mesencephalothalamic region (21/36). Fourteen were located in the cerebral white matter; two were in the dentate nuclei. Nine giant mesencephalothalamic PVSs had associated hydrocephalus, which required surgical intervention. CONCLUSION: Giant tumefactive PVSs most often appear as clusters of variably sized cysts that are isointense relative to CSF and do not enhance. They are most common in the mesencephalothalamic region and may cause hydrocephalus. Although they may have striking mass effect, giant PVSs should not be mistaken for neoplasm or other diseases.
Arquivos Brasileiros de Neurocirurgia: Brazilian Neurosurgery
The Virchow-Robin spaces (VRSs), which are often incidentally observed in modern structural neuroimaging examinations, are small cystic cavities that usually surround the small arteries and arterioles at the level of basal ganglia, the anterior perforated substance and the thalamic-mesencephalic junction. Typically, they have similar physicochemical characteristics to cerebral spinal fluid (CSF) and there is no contrast enhancement on brain CT and MRI images. Its real meaning is unknown, although some contemporary studies have suggested that it might be related to certain traumatic brain injury or several other central nervous system (CNS) disorders, as degenerative diseases. Occasionally, some wide and atypical VRS may be mistaken for primary cystic brain tumors, especially in the context of large and symptomatic lesions, multiple clustered cysts, cortical lesions and if there is adjacent reactive gliosis. The present paper reports four patients who were affected by atypical VRS mi...
Dilated Virchow-Robin Spaces Mimicking a Brainstem Arteriovenous Malformation
Journal of neurosciences in rural practice
Virchow-Robin spaces (VRS) are ubiquitous and commonly observed as the resolution of magnetic resonance imaging (MRI) continues to improve. The function of VRS and the etiology of their dilation is still a subject of research. Diagnosing dilated VRS (dVRS) can be challenging because they may appear similar to other pathologies such as cystic neoplasms, infectious cysts, and even arteriovenous malformations (AVMs) on certain MRI pulse sequences. We reported a unique case of brainstem dVRS mimicking an AVM. Furthermore, the extensive pontine involvement of our patient's lesion is rarely described in neurosurgical literature. Understanding the imaging characteristics of dVRS is critical to accurately diagnose these lesions and avoid unnecessary tests and procedures.
Giant Cystic Widening of Virchow-Robin Spaces: An Anatomofunctional Study
American Journal of Neuroradiology, 2007
We describe 2 patients with unusual white matter cystic dilations, which could correspond to widening of the perivascular spaces. They underwent morphologic MR imaging with tractography, functional MR imaging (fMRI), and neuropsychological evaluation. fMRI examination showed no functional reorganization of cortical areas. Tractography showed an apparent decrease of white matter tract vectors into the regions of concern. Findings of the neuropsychological examination were normal. It seems that even an extensive cystic dilation of white matter does not deteriorate brain function.