World Neurosurg
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The restoration of shoulder function after brachial plexus injury is a high priority. Shoulder abduction and stabilization can be achieved by nerve transfer procedures including spinal accessory nerve (SAN) to suprascapular nerve (SSN) and radial to axillary nerve transfer. The objective of this study is to compare functional outcomes after SAN to SSN transfer versus the combined radial to axillary and SA to SSN transfer. ⋯ Patients with brachial plexus injury and an intact C7 root could benefit from radial to axillary transfer in addition to SAN to SSN transfer. There was no association between recovery of shoulder abduction and time interval from injury to surgery, age, sex, smoking, and BMI.
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The pathophysiology of de novo aneurysm after stenting is poorly understood. Hemodynamic effects may play an important role. We report and discuss the hemodynamic analysis of de novo aneurysm after intracranial stenting. ⋯ The hemodynamic change after stenting may lead to formation of a de novo aneurysm. After an initial injury that might result from the tine on the endothelial cells, stenting could produce high oscillatory shear index and low time-averaged wall shear stress near the tine, thus potentially inducing de novo aneurysm formation.
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Head trauma and neurosurgical-related osteomyelitis are common causes of cranial bone defect. Even though cranioplasty is considered a safe and well-consolidated procedure, there are still some issues about the flap's vascularization assessment. In this paper we describe a 2-staged cranioplasty procedure, focusing on the perioperative evaluation of the skin flap vascularization. Our goal is to assess if the skin flap's perfusion measurement with indocyanine green fluorescence can be considered a reliable method to predict good outcome in cranioplasties. ⋯ Surgical procedures were well tolerated; at 1 year of follow-up the cosmetic defect was unremarkable. Indocyanine green fluorescence can be a good aid to predict the probability of the skin flap survival by measuring its perfusion.
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Dissection of C2 guiding to the C1 lateral mass and facilitation of screw placement: Technical note.
Surgical intervention at the craniovertebral junction requires preoperative and intraoperative planning to get optimum postoperative results. Careful positioning minimizes the risk of iatrogenic injury and can also facilitate adequate surgical exposure. Tortuous venous channels that are usually encountered as the dissection proceeds may cause excessive bleeding before reaching the lateral mass (LM). However, both localization and placement may be made easier by altering the dissection technique and modifying the patient's position. Traditionally, the military tuck position is described for the dorsal approach to the craniovertebral junction. The objective of this study is to emphasize the role of arc or bow like position, a modification of prone position for adequate placement of C1 LM screw in these cases. ⋯ Visual axis to the lateral mass of C1 in an arc/bow position with head elevation puts C1 LM more in the visual axis of the operator, which makes the trajectory straight without causing much angulation while inserting the screw. At the same time, the axis vertebra guides the surgeon to the C1 lateral mass with no handling of dura.
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Rootlets of the lower cranial nerves create a web that limits microsurgical maneuverability in the cerebellomedullary cistern (CMC). The vagoaccessory triangle (VAT) and 2 triangles within it were defined to identify surgical routes to aneurysms of the posterior inferior cerebellar artery (PICA). Dividing the VAT into 2 triangles (suprahypoglossal [SHT] and infrahypoglossal [IHT]), although elegant, oversimplifies CMC anatomy. The triangle formed by the superior and inferior hypoglossal rootlets (hypoglossal-hypoglossal triangle [HHT]) needs consideration as well. ⋯ Based on this study, VAT should be divided into 3 triangles, not 2. Splayed rootlets of cranial nerve XII and multiple outlet foramina create an important space different from the previously recognized SHT and IHT. These triangles provide corridors to vascular pathologies. V4 subsegments may be approximated from imaging studies and may help with preoperative planning.