Articles: microvascular-decompression-surgery.
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Case Reports
Microvascular decompression of the trigeminal nerve with petrous sling technique: surgical video.
The retrosigmoid approach for microvascular decompression of the trigeminal nerve (TN) is an established and highly effective technique for the treatment of trigeminal neuralgia due to vascular compression. It is common to place a pledget or other cushion material between the source of vascular compression, typically the superior cerebellar artery (SCA), and the TN after vessel mobilization and decompression. A previous study demonstrated the use of a tentorial sling on the SCA to maintain decompression of the TN, with encouraging results.1 In this video, we demonstrate a novel technique using a Gore-Tex (W. ⋯ Gore & Associates, Newark, Delaware) sling wrapped around the SCA and secured with a vascular clip on the petrous dura to maintain decompression of the TN (Video 1). Informed consent was obtained from the patient. He tolerated the procedure well with excellent pain relief and was discharged on postoperative day 1.
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Randomized Controlled Trial
Combined pulsed and thermal radiofrequency versus thermal radiofrequency alone in the treatment of recurrent trigeminal neuralgia after microvascular decompression: A double blinded comparative study.
Recurrent trigeminal neuralgia (RTN) is a common clinical problem and pain recurs in many patients after microvascular decompression (MVD). We evaluated the effect of adding pulsed radiofrequency to radiofrequency thermocoagulation at 60°C compared to radiofrequency thermocoagulation at 70°C alone in the treatment of recurrent trigeminal neuralgia after microvascular decompression. ⋯ Combined pulsed and thermal radiofrequency can significantly reduce the incidence of the side effects/complications with similar success rate than using thermal radiofrequency alone in treatment of recurrent trigeminal neuralgia after microvascular decompression.
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Several microvascular decompression technical variations for the treatment of medically refractory trigeminal neuralgia have been proposed that can be categorized generally as interposition and transposition techniques. These latter approaches, so-called slinging techniques, have been increasing in popularity, because they can possibly reduce the long-term recurrence rates by preventing the formation of fibrosis and granulomas at the decompression site. We have reported a technique for transposition of the superior cerebellar artery for microvascular decompression in trigeminal neuralgia using the superior petrosal vein as an in situ sling to anchor and reroute the artery away from the nerve. ⋯ The most frequent neurovascular conflict in trigeminal neuralgia involves the superior cerebellar artery, and the strategic location of the superior petrosal vein relative to this neurovascular complex allows for its use as a natural in situ sling that reroutes the artery and prevents its recoil against the nerve. This technique can be added to the increasing armamentarium of transposition techniques for microvascular decompression, with the advantage of simplicity and no requirement for a complex prosthesis to secure the transposition.