Neurosurgery
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Temporal bone and skull base pneumatization is a naturally occurring process that begins before birth and continues into early adulthood. Occasionally this process surpasses normal limits, resulting in hyperpneumatization, which is usually obvious, but on rare occasions may mimic more aggressive skull base disorders. An awareness of this rare anatomical variant may help clinicians avoid more extensive investigations. ⋯ We concluded that the skull base abnormality was an anatomical variant associated with a clival fracture and hemorrhage, which led to opacification of the pneumatized air cells. No specific treatment was offered and symptoms resolved completely. Long-term follow-up CT demonstrated opacification of the skull base. This is one of very few cases in the literature reporting the clinical course of a patient with a hyperpneumatized skull base and the subsequent evolution of the disorder after minor head trauma.
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Intraoperative measurements of cerebral blood flow are of interest during vascular neurosurgery. Near-infrared indocyanine green (ICG) fluorescence angiography was introduced for visualizing vessel patency intraoperatively. However, quantitative information has not been available. ⋯ Quantification of ICG-based fluorescence angiography appears to be useful for intraoperative monitoring of arterial patency and regional cerebral blood flow.
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The proximal superior cerebellar artery (pSCA) is often considered a perforator-free area. Precise anatomical knowledge of this region clarifies the pathophysiology underlying posterior fossa ischemic syndromes and helps avoid treatment-related complications. ⋯ The pSCA should not be regarded as a perforator-free area. Although the pSCA territories likely overlap with the posterior cerebral artery, BA, and anterior inferior cerebellar artery, the pSCA segment cannot be surgically manipulated with impunity.
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Coil instability possibly translating into higher delayed rebleeding rates remains a concern in the endovascular management of cerebral aneurysms. ⋯ The individualized approach resulted in complete occlusion of 114 aneurysms (89.7%), with neck remnants and residual aneurysms detectable in 11 (8.7%) and 2 (1.6%) cases, respectively. Treatment morbidity was 11.9%, without significant differences between surgical (15.6%) and endovascular (9.3%) patients (P = .09). Recurrences from coil compaction were safely treated by re-embolization, whereas recurrences from aneurysmal regrowth may best be managed surgically when technically feasible.