Erschienen in:
08.06.2016 | Clinical Article - Brain Tumors
The use of a three-dimensional endoscope for different skull base tumors: results of a preliminary extended endonasal surgical series
verfasst von:
Giuseppe Catapano, Matteo de Notaris, Domenico Di Maria, Luis Alonso Fernandez, Giuseppe Di Nuzzo, Vincenzo Seneca, Giuseppina Iorio, Iacopo Dallan
Erschienen in:
Acta Neurochirurgica
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Ausgabe 8/2016
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Abstract
Background
The evolution of skull base surgery over the past decade has been influenced by advancement in visualization technology. Recently, as a result of such improvements, three-dimensional (3-D) scopes have been widely used during endoscopic endonasal approaches. In the present study, we describe the use of 3-D stereoscopic endoscope for the treatment of a variety of skull base lesions.
Methods
From January 2010 to June 2015, a 3-D endoscopic endonasal approach (4 and 4.9 mm, 0°, and 30° rigid endoscopes) was performed in 70 patients with the following lesions: 42 large extrasellar pituitary macroadenomas, seven tuberculum sellae meningiomas, seven clivus chordomas, five craniopharyngiomas, three fibrous dysplasia of the clivus, three sinonasal malignancies, one orbital lymphangioma, one trigeminal neurinoma, one primary suprasellar lymphoma.
Results
Total tumor removal was obtained in 50 patients (71.4 %) while in 14 (20 %), subtotal removal was possible in six (8.6 %) only partial removal was achieved. Overall complications included diabetes insipidus in eight patients (11.4 %), hypopituitarism in seven patients (10 %), CSF leak in five patients (7.1 %), cranial nerve injury in two patients (2.8 %), panhypopituitarism in two patients (2.8 %), meningitis in one (1.4 %) and one postoperative central retinal artery occlusion (1.4 %). There was no mortality in the series. The mean follow-up time was 39 months (range, 6–72 months).
Conclusions
In our experience, the 3-D endoscope represents a critical development in visualization, thus enabling improved hand–eye coordination and depth perception, which are mandatory for the management of complex intradural neurovascular structures during tumor removal surgery.