Articles: neuronavigation.
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Review Meta Analysis
Image-Guided versus Freehand Ventricular Drain Insertion: Systematic Review and Meta-analysis.
Ventricular drain insertion is a common neurosurgical procedure, typically performed using a freehand approach. Use of image guidance during drain insertion could improve accuracy and reduce the incidence of drain failure. This review aims to assess the impact of image guidance on drain placement accuracy, failure rate, and number of ventricular cannulation attempts. ⋯ In patients undergoing ventricular drain insertion, the use of image guidance may enhance drain accuracy and reduce drain failure rate. The use of image guidance probably does not decrease the number of drain insertion attempts.
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Journal of neurosurgery · Mar 2022
Reducing the risks of proximal and distal shunt failure in adult hydrocephalus: a shunt outcomes quality improvement study.
Patient outcomes of ventriculoperitoneal (VP) shunt surgery, the mainstay treatment for hydrocephalus in adults, are poor because of high shunt failure rates. The use of neuronavigation or laparoscopy can reduce the risks of proximal or distal shunt catheter failure, respectively, but has less independent effect on overall shunt failures. No adult studies to date have combined both approaches in the setting of a shunt infection prevention protocol to reduce shunt failure. The goal of this study was to determine whether combining neuronavigation and laparoscopy with a shunt infection prevention strategy would reduce the incidence of shunt failures in adult hydrocephalic patients. ⋯ Introducing a shunt infection prevention protocol, placing the proximal catheter under neuronavigation, and placing the peritoneal catheter in the perihepatic space by using the falciform technique led to decreased rates of infection, distal shunt failure, and overall shunt failure.
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We retrospectively reviewed the institutional experience in patients who underwent microsurgical resection of cavernous malformations (CMs) or arteriovenous malformations (AVMs) using a multimodal intraoperative protocol including neuronavigation, intraoperative ultrasound (i-US), computed tomography (i-CT), and neuromonitoring. ⋯ The combination of different intraoperative real-time imaging modalities (i-CT and i-US), coupled with neuromonitoring, in the surgical management of vascular lesions, particularly if located in eloquent areas, has a positive impact on clinical outcome.
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Intraaxial tumors of the central lobe are challenging lesions to deal with because of the high eloquence of this anatomic area.1,2 Diffusion tensor imaging magnetic resonance imaging and fluorescein (F) have proven to be useful in the planning and execution, respectively of glioma surgery.3-9 Nevertheless, the advantages of intraoperative use of augmented reality (AR) with diffusion tensor imaging-based high-definition fiber tractography (HDFT) are still underestimated. In the AR HDFT-F technique reported by our group, the integration of AR into the microscope comes through the BrainLAB Curve navigation platform (BrainLAB AG, Munich Germany), Smartbrush software (BrainLAB AG), KINEVO 900 surgical microscope (Carl Zeiss, Oberkochen, Germany), and YELLOW 560 filter (Carl Zeiss).9 The microscope establishes a wired autodetection of the navigation platform, and the eyepiece functions as a "see-through display" of the AR images, which are overlapped onto the surgical field. Video 1 shows the technical key aspects of the intraoperative use of the AR HDFT-F technique in the maximal safe anatomic resection of a postcentral gyrus high-grade glioma.
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Neuronavigation applied to Piezosurgery: towards Robotic image-aided craniotomies? A technical note.
Although simple in its concept, craniotomy can still cause serious consequences to the patient. A recent alternative to standard techniques (i.e., perforator and craniotome) is represented by piezosurgery (PS), which exploits a microvibration-emitting blade that cuts the bone directly from the outer surface of the skull. Although PS has been demonstrated to decrease complications, dural lacerations and neurovascular injuries are still possible from inadvertent penetration of the inner tabula. Modern neuronavigation systems can provide the surgeon with the possibility to track the instrument while carving the skull, thus potentially lowering the complication rates. ⋯ Neuronavigated PS has the potential to decrease craniotomy-related complication rates. By allowing for real-time visualization of the blade's level of penetration, it provides the surgeon with the ability to halt progression when needed, avoiding dural lacerations and neurovascular injuries. The principles behind this technique could anticipate the advent of robotic-image aided craniotomy.