BACKGROUND:In recent years, three-dimensional (3D) digital exoscope systems have been developed and reported to form an adequate alternative to the conventional operating microscope.OBJECTIVE:To illustrate essential and practical features in a surgical video comparing a robotic arm 3D digital exoscope and a conventional operating microscope to clip a middle cerebral artery aneurysm.METHODS:We used a mouth switch–controlled operating microscope (OPMI PENTERO 900; Carl Zeiss Meditec AG) and robotic arm–controlled 3D digital Aeos exoscope (Aesculap Inc). We assessed the following visualization and optical features: overall visualization quality, color and contrast quality, range and quality of magnification, and adjustment of focus. In addition, we assessed maneuverability for changing surgical site within and viewing angle of the surgical field.RESULTS:We found that both modalities are suitable for this surgery and offer distinct qualities. The microscope enables faster magnification adjustment and continuous mouth switch–controlled focus adjustments. The advantages of the exoscope include the adaptation of color and contrast settings, and the surgeon can keep both hands in the surgical field while the camera pivots around its working field.CONCLUSION:The exoscope and operating microscope offer a similar high-quality visualization of, and smooth maneuvering within, the surgical field. The method of visualization and maneuvering is, however, very distinct. Therefore, a surgeon's acquaintance and experience with the specific features and how to optimally use them in surgery are of utmost importance. Further analyses of both systems are needed to evolve these tools.
BACKGROUND: Few reports have shown that superior oblique myokymia (SOM) may result from vascular compression of the trochlear nerve and may be curable using microvascular decompression (MVD). OBJECTIVE: To report the clinical characteristics and surgical treatment of 2 cases of SOM and provide a review of the related literature. METHODS: Two patients with SOM were treated using MVD with the lateral supracerebellar infratentorial approach. The patients underwent diagnostic magnetic resonance imaging and three-dimensional fusion imaging preoperatively. A lateral suboccipital craniotomy was performed in the park-bench position. The trochlear nerve and branches of the superior cerebellar artery were confirmed after opening the cerebellomesencephalic fissure over the tentorial surface of the cerebellum. The vessel, which compressed the root exit zone of the trochlear nerve, was transposed far from the nerve and attached to the surface of the midbrain using Teflon felt and fibrin glue. RESULTS: The first case showed compression on both the ventral and rostral sides of the trochlear nerve root exit zone, and the second showed compression only on the ventral side. Large bridging veins on the tentorial surface of the cerebellum complicated the approach in the second case. Postoperatively, both patients had immediate and complete resolution of symptoms without recurrence at the 24-mo and 17-mo follow-ups, respectively. Five previous reports described the complete resolution of SOM after MVD. CONCLUSION: A presentation of an intermittent fluttering ocular sensation should prompt magnetic resonance imaging for ipsilateral trochlear nerve compression. The lateral supracerebellar infratentorial approach allows safe and efficacious MVD for SOM.
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