49 research outputs found
Supracerebellar “Flyover” Approach to Dumbbell Falcotentorial Meningioma Encasing the Galenic Venous System
Falcotentorial meningiomas involve the tentorial apex and straight sinus, posing challenges when encasing the galenic venous system.1 Microneurosurgery is considered the best treatment option for large falcotentorial meningiomas because it provides a definitive cure.2 In contrast, Gamma Knife surgery mainly allows the control of smaller or residual tumors after microsurgical resection.3 Approach selection between interhemispheric supratentorial versa supracerebellar transtentorial is dictated by the displacement of the Galen vein.1,4-8 Video 1 describes the critical surgical steps of the supracerebellar "flyover" approach for a Bassiouni type II dumbbell falcotentorial meningiomas encasing the galenic venous system. Preoperative embolization was ruled out due to potential additional morbidity and mortality risks.9,10 A perimedian supracerebellar infratentorial transtentorial approach was performed with the patient in 3/4 prone Concorde position. After early devascularization and division of the tentorium, the meningioma was internally debulked while preserving the arachnoid plane. The posterior choroidal arteries, internal cerebral veins, basal veins of Rosenthal, and vein of Galen were carefully dissected, and the tumor was completely resected. The patient was discharged on postoperative day 3 with no deficits. Postoperative magnetic resonance imaging confirmed a Simpson grade 1 resection. Pathology revealed a grade 2 meningioma. The patient remained asymptomatic with no recurrence at a 10-year follow-up. The reported case demonstrates that the most critical factor in the choice of approach to midline dumbbell falcotentorial meningiomas is the relationship of the tumor to the galenic venous system and its tributaries
Endoscope-Assisted, Transmastoid, High Cervical Approach for Resection of a Jugular Foramen Schwannoma: 2-Dimensional Operative Video.
Jugular foramen schwannomas (JFSs) are relatively rare, benign lesions that account for 10% to 30% of all tumors in the region of the jugular foramen. Given their slow-growing nature, JFSs can become quite large before causing symptoms of lower cranial nerve (LCN) dysfunction, making microsurgical resection a challenge. Successful resection of any JFS is dependent on the identification and preservation of the adjacent, uninvolved LCNs to alleviate nerve compression and preserve function. We report a transmastoid, high cervical approach to a dumbbell-shaped, extracranial JFS that was causing symptomatic LCN compression. The patient presented with dysphagia and was found to have left vocal cord paralysis on video laryngoscopy and intermittent aspiration on a swallowing evaluation. The transmastoid, high cervical exposure allowed for early identification of the tumor as well as the adjacent LCNs. Neurophysiological monitoring included somatosensory evoked potentials; brainstem auditory evoked responses; and cranial nerve VII, X, XI, and XII electromyographic monitoring. Endoscopic assistance allowed for improved LCN visualization from the high cervical exposure and gross-total resection of the tumor. The patient\u27s dysphagia improved both subjectively and objectively following the resection. The patient gave written informed consent for surgery and publication of the case report. Institutional review board approval was not required for this case report. Used with permission from Barrow Neurological Institute
Defining a Standardized Approach for the Bedside Insertion of Temporal Horn External Ventricular Drains: Procedure Development and Case Series
BACKGROUND: A trapped temporal horn can be emergently decompressed by inserting a bedside temporal horn external ventricular drain (tEVD). However, no standardized method for this procedure has been described. OBJECTIVE: To identify methods for bedside tEVD insertion, and determine the safest, most accurate, and most easily standardized approach. METHODS: Volumetric images of 20 patients with trapped temporal horns were analyzed. Three tEVD approaches (perpendicular, lateral, and medial) were defined, along with standardized insertion points and external landmarks for trajectory guidance. Predicted success in penetrating the temporal horn, skin-to-temporal horn entrance distance, temporal horn distance traversed, and trajectory target error and accuracy were evaluated; data were compared with independent sample t tests. RESULTS: Nineteen of 20 cases were analyzed; 13 had critical temporal horn entrapment. Penetration was achieved in 100% of perpendicular and 84% (16/19) of lateral and medial approaches (92% [12/13] of critical entrapments). In 19 patients, trajectory error was not significantly different among approaches. The perpendicular approach had significantly more accuracy than the lateral (P = .01) and medial (P = .002) approaches. The lateral approach afforded significantly more traversable distance than the perpendicular approach (P = .009). In cases with critical entrapment, the perpendicular approach had significantly less error (P = .02) and significantly better accuracy (P = .02) than the medial approach. The perpendicular approach trended toward more accuracy than the lateral approach (P = .06). CONCLUSION: The perpendicular approach appears to be the easiest, safest, and most reliable approach tested. We recommend conducting bedside tEVD placement only in patients with a critically dilated temporal horn who are clinically deteriorating at a rate that prohibits other procedures
