Preoperative embolization of carotid paraganglioma is increasingly used to reduce the risk of surgical bleeding obtaining a more precise and extensive tumor resection. Currently the technique can be customized in consideration of the different tumor angioarchitecture, thanks to embolic materials with different vascular penetration: solid particles of polyvinyl-alcohol (PVA), histoacryl glue, and liquid polymer (Onyx(®)). Two cases of swelling dissection with volume progression over time came to our observation. Both patients (45 and 70-year-old women) were studied with neck ultrasound imaging and computed tomography (CT) and/or magnetic resonance (MR). In both cases the radiological investigations confirmed the clinical suspicion of carotid paraganglioma. Both patients were sent for angiography control and preoperative devascularization of the lesion. The treatment was performed under general anesthesia using, depending on the type of tumor vasculature, in case 1 solid particles of PVA and histoacryl glue, and in case 2 Onyx(®) (Covidien, Irvine). The patients successfully underwent excision of the lesion via cervicotomy within a week from the embolization procedure, without any complications. The histological findings confirmed the diagnosis of chemodectoma, and macrophage infiltrates were seen in the regions previously embolized. At one-year follow-up, there was no evidence of recurrent disease. The preoperative embolization of vascular lesions of the neck represents a safe technique that yields the best results when customized over the type of vascularization of the lesion, enabling the use of the most appropriate materials, depending on the case to be treated.
Brain magnetic resonance imaging (MRI) studies have shown different patterns of structural and functional reorganization in high‐level athletes compared with controls, but little is known about their relationship with interlimb coordination mechanisms. To this aim, we investigated brain structural and functional differences in high‐level fencers compared with nonathlete controls and the MRI substrates of interlimb coordination in elite athletes. Fourteen right‐handed male fencers (median age = 22.3 years) and 15 right‐handed age‐ and sex‐matched healthy subjects (median age = 22.4 years) underwent structural and functional MRI acquisition during the execution of cyclic bimanual‐movements as well as during in‐phase and antiphase hand/foot‐movements of the dominant‐right limbs. No between‐group differences were found in gray matter volumes and white matter architecture. Active‐fMRI showed that controls versus fencers had higher activations in parietal and temporal areas during bimanual‐task; whereas fencers versus controls had higher activations in the basal ganglia. During in‐phase task, controls versus fencers showed higher activation of right cerebellum, whereas fencers had higher activity mainly in frontal areas. The functional‐connectivity (FC) analysis showed that fencers versus controls had an increased FC between left motor cortex and fronto‐temporal areas as well as bilateral thalami during the different tasks. Intensive and prolonged fencing activity is associated with brain functional changes mainly involving frontal regions related to high‐level motor control and planning of complex tasks. These modifications are likely to reflect an optimization of brain networks involved in motor activities, including interlimb coordination tasks, occurring after intensive training.
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