World Neurosurg
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It is crucial to identify a shunt point for spinal arteriovenous malformation (AVM) treatment. For this purpose, some intraoperative supports have been reported-intravenous injection of indocyanine green (ICG), selective arterial injection of ICG, and selective arterial injection of saline with a high frame rate digital camera. However, there are difficulties in accurately identifying the shunt point, especially if the lesion has multiple feeders. The aim of this technical note was to report a novel method, selective arterial injection of saline to subtract signals of ICG, to precisely identify perimedullary arteriovenous fistula shunt points having multiple feeding arteries. ⋯ Despite having similar invasiveness, selective arterial injection of saline to subtract signals of ICG is superior to previously described techniques, such as selective arterial injection of ICG. Therefore, it will be useful in spinal arteriovenous malformation surgical treatment.
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YouTube is one of the most widely accessed platforms for patients seeking information across all medical specialties. More than 50% of patients engage with online information before seeing a physician. There has been no qualitative analysis of neuromodulation content on YouTube. ⋯ Certain characteristics of YouTube videos are associated with higher quality. Video producers should aim to use these characteristics and follow DISCERN criteria when preparing online videos.
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Stand-alone minimally invasive approaches for the surgical management of spinal dumbbell tumors carry the risk of incomplete resections and impaired hemostasis. More-extensive approaches require subsequent instrumentation with metal artifacts impairing follow-up imaging. Here, we present a technical note on percutaneous instrumentation using carbon fiber-reinforced polyether ether ketone (CFR-PEEK) hardware combined with a minimally invasive posterolateral approach for tumor resection. ⋯ Resection of dumbbell tumors via a minimally invasive posterolateral approach and instrumentation with CFR-PEEK hardware allows maximal and safe resection. Due to lack of major metal artifacts, carbon fiber hardware improves the interpretation of follow-up imaging as well as planning of radiation if required for tumor recurrence.