RSS-Feed abonnieren
PDF herunterladen
DOI: 10.1055/s-2004-830179
Advanced Neuronavigation in Skull Base Tumors and Vascular Lesions
Publikationsverlauf
Publikationsdatum:
04. März 2005 (online)
Abstract
Objective: The purpose of this study was to describe the usefulness of recent advances of neuronavigational technology in the management of skull base tumors and of vascular lesions, treated via a skull base approach. Methods: In 16 patients (skull base meningioma n = 9, petrous apex epidermoid n = l, craniopharyngeoma n = 1, giant internal carotid artery aneurysm n = 1, basilar/vertebral artery aneurysm n = 2, brain stem cavernoma n = 2), “advanced” neuronavigation was used. In contrast to “conventional” neuronavigation, the information for the neurosurgeon was enhanced by the intraoperative screen display of 3-dimensional reconstructions of the lesion, vessels, nerves and fiber tracts at risk. The 3-dimensional reconstructions were obtained by preoperative manual or automated segmentation processes. In addition, different imaging modalities (computed tomography [CT] with magnetic resonance imaging [MRI], CT with CT angiography, Tl- with diffusion-weighted MRI) were fused and shown on the screen. Results: In the cases of tumors, “advanced” neuronavigation facilitated the approach (n = 4), contributed to tailor the approach (n = 2) and helped to identify hidden neurovascular structures (n = 9). In the cases of aneurysms, “advanced” neuronavigation allowed us to reduce the skull base approach to the needs of safe aneurysm clipping (n = 3). In both cases of brain stem cavernoma, “advanced” neuronavigation was deemed useful for definition of the best surgical approach in relation to the pyramidal tract and brain stem nuclei. Conclusion: The authors' experiences suggest that neuronavigation, which displays 3-dimensional reconstructions of lesion, vessels, nerves and fiber tracts during surgery and makes use of image fusion techniques, is an important tool in the neurosurgical management of skull base lesions.
Key words
Neuronavigation - skull base surgery - meningioma - aneurysm - cavernoma
References
- 1 Roberts D W, Strohbehn J W, Hatch J F, Murray W, Kettenberger H. A frameless stereotaxic integration of computerized tomographic imaging in the operating microscope. J Neurosurg. 1986; 65 545-549
- 2 Watanabe E, Watanabe T, Manaka S, Manayagi Y, Takakura K. Three dimensional digitizer (neuronavigator): new equipment for computed-tomography guided stereotaxic surgery. Surg Neurol. 1987; 27 543-547
- 3 Grunert P, Darabi K, Espinosa J, Filippi R. Computer-aided navigation in neurosurgery. Neurosurg Rev. 2003; 26 73-99
- 4 Rohde V, Rohde I, Reinges M H, Mayfrank L, Gilsbach J M. Frameless stereotactically guided catheter placement and fibrinolytic therapy for spontaneous intracerebral hematomas: technical aspects and initial clinical results. Minim Invas Neurosurg. 2000; 43 9-17
- 5 Rohde V, Reinges M HT, Krombach G A, Gilsbach J M. The combined use of image-guided frameless stereotaxy and neuroendoscopy for the surgical management of occlusive hydrocephalus and intracranial cysts. Br J Neurosurg. 1998; 12 531-538
- 6 Spetzger U, Laborde G, Gilsbach J M. Frameless neuronavigation in modern neurosurgery. Minim Invas Neurosurg. 1995; 38 326-330
- 7 Havenbergh T van, Koekelkoren E, Ridder D de, Heyning P van de, Verlooy J. Image-guided surgery for petrous apex lesions. Acta Neurochir. 2003; 145 737-742
- 8 Sure U, Alberti O, Petermeyer M, Becker R, Bertalanffy H. Advanced image-guided skull base surgery. Surg Neurol. 2000; 53 563-572
- 9 Wiltfang J, Rupprecht S, Ganslandt O, Nimsky C, Keßler P, Schultze-Mosgau S, Fahlbusch R, Neukam F W. Intraoperative image-guided surgery of the lateral and anterior skull base in patients with tumors or trauma. Skull Base. 2003; 13 21-29
- 10 Bertalanffy H, Seeger W. The dorsolateral, suboccipital, transcondylar approach to the lower clivus and anterior portion of the craniocervical junction. Neurosurgery. 1991; 29 815-821
- 11 Rohde V, Schaller C, Hassler W. The extreme lateral transcondylar approach to aneurysms of the vertebrobasilar junction, the vertebral artery, and the posterior inferior cerebellar artery. Skull Base Surgery. 1994; 4 177-180
- 12 Nanda A, Vincent D A, Vannemreddy P SSV, Baskaya M K, Chanda A. Far-lateral approach to intradural lesions of the foramen magnum without resection of the occipital condyle. J Neurosurg. 2002; 96 302-309
- 13 Salas E, Sekhar L N, Ziyal L M, Caputy A J, Wright D C. Variations of the extreme-lateral craniocervical approach: anatomical study and clinical analysis of 69 patients. J Neurosurg (Spine 2). 1999; 90 206-219
- 14 Rohde V, Schaller C, Hassler W. The combined pterional and orbitozygomatic approach to extensive tumours of the lateral and latero-basal orbit and orbital apex. Acta Neurochir. 1995; 132 127-130
- 15 Sekhar L N, Pomeranz S, Janecka I P, Hirsch B, Ramasastry S. Temporal bone neoplasms: a report on 20 surgically treated cases. J Neurosurg. 1992; 76 578-587
- 16 King W A, Black K L, Martin N A, Canalis R F, Becker D P. The petrosal approach with hearing preservation. J Neurosurg. 1993; 79 508-514
- 17 Taniguchi M, Perneczky A. Subtemporal keyhole approach to the suprasellar and petroclival region: microanatomic considerations and clinical application. Neurosurgery. 1997; 41 592-601
- 18 Seifert V, Stolke D. Posterior transpetrosal approach to aneurysms of the basilar trunk and vertebrobasilar junction. J Neurosurg. 1996; 85 373-379
Veit Rohde,M. D.
Department of Neurosurgery · University of Aachen
Pauwelsstrasse 30
52057 Aachen
Germany
Telefon: +49-241-808-8495
Fax: +49-241-808242
eMail: vrohde@ukaachen.de