Radiofrequency thermocoagulation offers the highest rates of complete pain relief, although further data on balloon microcompression are required. It is essential that uniform outcome measures and actuarial methods be universally adopted for the reporting of surgical results. Randomized controlled trials are required to reliably evaluate new surgical techniques.
Neurovascular decompression is a widely practiced technique for the treatment of trigeminal neuralgia, and yet there is still debate as to whether the beneficial effect results from relieving the nerve of compression by an anatomically abnormal vessel or from the manipulation and trauma the nerve undergoes during the procedure. The development of this operation has been hampered by the lack of adequate anatomical studies in normal controls. The authors present a combined study of clinical and anatomical material employing standardized definitions of the neurovascular relationships in both groups. Detailed simulations of the operative procedure were carried out on fresh cadavers matched for age, sex, and side, and a technique of in situ blood vessel perfusion was developed that enabled the normal neurovascular arrangement to be observed post mortem at physiological pressures. Neurovascular compression, typified by a large vessel distorting and creating a groove in the fifth cranial nerve, was found in 37 of the 41 cases of trigeminal neuralgia; recurrence of pain did not relate to the site of compression. A follow-up study was carried out for a median of 53 months (range 12 to 103 months). No distortion was found in a total of 50 normal cadaveric dissections; however, on perfusion to physiological pressures, the percentage of nerves with vessels adjacent or in simple contact increased from 16% to 40%. This study using this new technique confirms that vascular compression of the fifth cranial nerve is an anatomical abnormality specific to trigeminal neuralgia.
Details of the course of the accessory nerve and the pattern of the cervical contributions to the nerve are essential for planning neck dissection. Based on a recent anatomic description, a technique was devised to preserve the distal accessory nerve; the theory advanced was that the trapezius was supplied by motor fibers from the cervical plexus, which join the accessory nerve in the posterior triangle. Dissections were performed on 23 cadavers to test such a theory. The course of the accessory nerve in the neck was mapped in each dissection, and landmarks for use during surgery determined. Cervical contributions to the nerve usually joined deep to the sternocleidomastoid, and not in the posterior triangle. Branches from the cervical plexus, independent of the accessory nerve, entered the trapezius in the posterior triangle. None of the bilateral dissections showed symmetry of the cervical contributions.
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