No shinkei geka. Neurological surgery
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The effects of electrical stimulation on the nervous system have been known for many years. Electrical stimulation has been employed as a treatment of functional diseases of the nervous system and has been mainly developed on the basis of deep brain stimulation (DBS), motor cortex stimulation (MCS), and spinal cord stimulation (SCS). Over the past two decades, DBS has replaced lesioning techniques as a treatment for movement disorders, and DBS has been shown to be safe and efficacious. ⋯ Research for the understanding of the effects of electrical stimulation at the neuronal level is still in progress, and knowledge from these research will eventually improve the effectiveness of this therapy. Moreover, these basic research and preliminary clinical studies will call for the re-examination of the basic effects of electricity on living tissues because it is now clear that electrical stimulation has a wider application. In this review, we summarizes the history and rationale behind electrical neurostimulation therapy and the recent applications of this technique for various functional diseases of the nervous system.
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Intrasacral fixation technique devised by Jackson is said to provide rigid lumbosacral fixation. We treated 3 cases of lumbosacral lesions using this technique in which lumbosacral segment had become extremely unstable during surgical intervention adding to the effect of original lesions. In all cases, surgeries were performed in 2 stages, intrasacral fixation and anterior stabilization. ⋯ One week after the first operation, the L5/S1 disc and the suppurtive vertebral bodies were resected through the extraperitoneal approach and anterior stabilization was performed with iliac bone grafts. At follow-up for a minimum of 6 months, initial fixation was maintained in all 3 cases and bony fusion was obtained. The intrasacral fixation technique was considered to be effective for extremely unstable lumbosacral lesions.
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We report 3 cases of de novo aneurysms that developed long after neck clipping of the initial aneurysms (range, 7 to 20 years, mean 12 years). Case 1 was a 58-year-old female who had undergone clipping of a ruptured aneurysm 17 years previously. Ten years later, she suffered another subarachnoid hemorrhage due to rupture of a new aneurysm, for which neck clipping was performed. ⋯ Conventional angiography revealed three and one new aneurysms, respectively. Since case 1 was a special case of multiple aneurysms in which lesions appeared in series rather than in parallel, all three patients harbored multiple aneurysms. It is recommended that patients with multiple aneurysms, especially those after a long period postoperatively, undergo periodic examination on an outpatient basis to detect formation of de novo aneurysms by magnetic resonance angiography or 3D-CT angiography.