Journal of neuroimaging : official journal of the American Society of Neuroimaging
-
Epilepsy is among one of the most common neurologic disorders. The role of magnetic resonance imaging (MRI) in the diagnosis and management of patients with epilepsy is well established, and most patients with epilepsy are likely to undergo at least one or more MRI examinations in the course of their disease. ⋯ Familiarity with normal anatomic variations is essential in the accurate diagnosis and image interpretation, as these variations may be mistaken for epileptogenic foci, leading to unnecessary follow-up imaging, or worse, unnecessary treatment. After a brief overview of normal imaging anatomy of the mesial temporal lobe, this article will review a few important common and uncommon anatomic variations, mimics, and pitfalls that may be encountered in the imaging evaluation of patients with epilepsy.
-
Review Case Reports
Clinical and Neuroimaging Manifestations of Erdheim-Chester Disease: A Review.
Erdheim-Chester disease (ECD) is a rare disorder characterized by accumulation of non-Langerhans cell histiocytes in multiple organs. The clinical manifestations are protean and vary from asymptomatic focal disease to potentially fatal multisystem disorder. The commonest presentation is symmetric osterosclerotic lesions of lower extremity long bones; other organs, including cardiovascular, nervous, and endocrine system may be affected. ⋯ Rare primary neurological presentation can occur mimicking CNS inflammatory, neoplastic, or demyelinating disorders. We report an unusual case of ECD presenting with progressive encephalopathy and ataxia along with multifocal brainstem and cerebellar lesions. A comprehensive review of clinical and neuroimaging features and immunohistochemical and molecular characteristic of ECD are presented along with review of neuroimaging findings in two previously reported cases.
-
Review Meta Analysis
Prediction of Meningioma WHO Grade Using PET Findings: A Systematic Review and Meta-Analysis.
World Health Organization (WHO) grading of meningiomas reflects recurrence rate and prognosis. Positron emission tomography (PET) investigates metabolic activity, allowing for distinction between low- and high-grade tumors. As preoperative suspicion for malignant meningioma will influence surgical strategy in terms of timing, extent of resection, and risks taken to achieve a total resection, we systematically reviewed the literature on PET-imaging in meningiomas and relate these findings to histopathological analysis. ⋯ We found that SUV and T/N ratio in 18F-FDG PET may be useful to noninvasively differentiate benign from malignant meningiomas. T/N ratio seems to have a high specificity for the detection of high-grade meningiomas. Other PET tracers were studied too infrequently to draw definitive conclusions. Before treatment strategies can be adapted based on 18F-FDG PET, prospective studies in larger cohorts are warranted to validate the optimal T/N ratio cutoff point.
-
Review Meta Analysis
Prediction of Meningioma WHO Grade Using PET Findings: A Systematic Review and Meta-Analysis.
World Health Organization (WHO) grading of meningiomas reflects recurrence rate and prognosis. Positron emission tomography (PET) investigates metabolic activity, allowing for distinction between low- and high-grade tumors. As preoperative suspicion for malignant meningioma will influence surgical strategy in terms of timing, extent of resection, and risks taken to achieve a total resection, we systematically reviewed the literature on PET-imaging in meningiomas and relate these findings to histopathological analysis. ⋯ We found that SUV and T/N ratio in 18F-FDG PET may be useful to noninvasively differentiate benign from malignant meningiomas. T/N ratio seems to have a high specificity for the detection of high-grade meningiomas. Other PET tracers were studied too infrequently to draw definitive conclusions. Before treatment strategies can be adapted based on 18F-FDG PET, prospective studies in larger cohorts are warranted to validate the optimal T/N ratio cutoff point.