Purely Endoscopic Subtemporal Keyhole Anterior Transpetrosal Approach to Access the Petrous Apex Region: Surgical Techniques and Early Results

Takeo Goto; Hiroki Morisako

doi:10.1055/s-0045-1803243

Journal of Neurological Surgery Part B: Skull Base, Inhaltsverzeichnis

J Neurol Surg B Skull Base 2025; 86(S 01): S1-S576
DOI: 10.1055/s-0045-1803243

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Purely Endoscopic Subtemporal Keyhole Anterior Transpetrosal Approach to Access the Petrous Apex Region: Surgical Techniques and Early Results

Authors

Takeo Goto

¹Department of Neurosurgery, Osaka Metropolitan University, Osaka, Japan
Hiroki Morisako

¹Department of Neurosurgery, Osaka Metropolitan University, Osaka, Japan

Abstract

Volltext

Objective: The anterior transpetrosal approach using a microscope to provide wider access to the petrous apex region has been described for radical resection of lesions of the middle and posterior skull base. The microscopic anterior transpetrosal approach (mATPA) requires a wide craniotomy and meticulous epidural procedures to minimize temporal lobe retraction. Recently, the clinical application of transcranial endoscopic keyhole approaches for minimally invasive surgery has been steadily expanding. In this study, the details of the purely endoscopic subtemporal keyhole ATPA (eATPA) for petrous apex lesions are described and its initial results are reported.

Methods: Between May 2022 and May 2023, the authors performed eATPA in 10 patients with petrous apex lesions, of which 6 were meningiomas, 3 were trigeminal schwannomas, and 1 was epidermoid cyst. The surgical procedure of the purely eATPA is as follows. After a small temporal craniotomy, the endoscopic procedure is started. The anterior rim of the petrous bone and Meckel’s cave are exposed via an intradural subtemporal approach. The lesion is removed with additional drilling of Kawase’s triangle, cutting the superior petrosal sinus, opening Meckel’s cave, and cutting the tentorium. The authors also compared the outcomes of mATPA versus eATPA for consecutive cases of petrous apex lesions.

Results: Gross-total resection was achieved in 8 of the 10 patients. The average operative time was 4 hours 13 minutes. There were three cases of transient abducens nerve palsy and one case of trochlear nerve palsy in the postoperative period. No new-onset motor deficits or CSF leakage was noted in any of these patients. Only one patient exhibited postoperative asymptomatic temporal lobe edema. The Karnofsky Performance Scale (KPS) scores remained unchanged or improved for all patients postoperatively. Compared with mATPA, eATPA achieved a similar extent of resection and comparable postoperative KPS scores with a significantly shorter mean operative time, much smaller temporal craniotomy, and thus less mean blood loss during surgery with lower rates of new-onset temporal lobe edema in the postoperative period.

Conclusion: An eATPA allows a direct route to access Meckel’s cave and posterior cranial fossa lesions similar to conventional mATPA, with shortening the operative time and reducing the risk of postoperative temporal lobe edema. This eATPA is considered one of the new surgical techniques that can be expected to develop in the future.