World Neurosurg
-
In 2020, the coronavirus disease 2019 (COVID-19) pandemic exposed existing stressors in the neurosurgical care infrastructure in the United States. We aimed to detail innovative technologic solutions inspired by the pandemic-related restrictions that augmented neurosurgical education and care delivery. ⋯ Digital health technology has improved neurosurgical care and comprehensive training at our institution. Investment in the technologic infrastructure required for these remote audiovisual services during the COVID-19 pandemic will facilitate the expansion of neurosurgical care provision for patients across the United States in the future. Governing bodies within organized neurosurgery should advocate for the continued financial and licensing support of these service on a national fiscal and policy level.
-
The standard way of isolating bypass vessels from surrounding structures during cerebral bypass surgery has been to use a rubber dam or neurosurgical patty. Here, the use of polyvinyl alcohol (PVA) sponges is described as a possible upgrade from these traditional bypass dams. ⋯ Although preliminary, our experience using PVA sponges during microvascular anastomosis suggests some of their properties can facilitate cerebral bypass surgery.
-
Cerebral cavernous malformations, also known as cavernomas, are vascular abnormalities of the brain that are clinically associated with a variety of neurologic symptoms that may include hemorrhagic strokes. They are the most common vascular abnormality, representing 10%-25% of all vascular malformations.1 Lesions associated with cavernomas include developmental venous anomalies, capillary telangiectasias, and other vascular malformations2 but not intracranial aneurysms. The latter association is extremely rare; in fact, there is only 1 case reported in the literature, in which the cavernoma was obscured by the presence of a cerebral hemorrhage and an unruptured aneurysm, which was presumed to be the primary cause of the bleeding, thereby misleading the surgeons to treat only the aneurysm.2 There are different alternatives for the management of different types of lesions.3-5 In this 3-dimensional operative video (Video 1), we present a case of a cavernoma associated with hemorrhage coexisting with an unruptured aneurysm in which we achieved complete resolution of both with microsurgical treatment through a pterional approach.6 The patient consented to publication of images.
-
Intraventricular hemorrhage and the subsequent development of posthemorrhagic hydrocephalus (PHH) is one of the most serious complication of prematurity, especially in extremely low birth weight infants.1 Neurodevelopmental delay, epilepsy, and severe cognitive impairment represent common sequelae of PHH.2,3 A ventriculoperitoneal shunt insertion in such premature infants is associated with higher rates of skin erosion, infection, and shunt failure.4 One therapeutic option is represented by the use of temporary cerebrospinal fluid diversion procedures (such as external ventricular drainage, subcutaneous reservoir, and ventriculosubgaleal shunt) to gain time avoiding the PHH secondary damages.5,6 An extremely low birth weight (birth weight = 653 g) infant at 24 + 4 gestational age weeks presented with a grade III intraventricular hemorrhage and periventricular hemorrhagic infarction 5 days after birth. Serial transfontanellar ultrasound disclosed a progressive PHH. Progressive symptomatic PHH, pulmonary hemodynamic instability, and suboptimal general prematurity conditions were the main factors that led to plan a percutaneous transfontanellar ultrasound-guided external ventricular drainage at the neonatal intensive care unit. ⋯ This edited, 2-dimensional operative video highlights the key surgical steps of the proposed procedure (Video 1). All relevant patient identifiers have been removed from the video. Nevertheless, the parent's consent was obtained regarding the procedure, video recording, and redistribution for educational purposes.