Efficacy of Anal Needle Electrodes for Intraoperative Spinal Cord Monitoring with Transcranial ...

1. James HE, Mulcahy JJ, Walsh JW, Kaplan GW. Use of anal sphincter electromyography during operations on the conus medullaris and sacral nerve roots. Neurosurgery 1979 4:521–3.
crossref pmid
2. Kobayashi K, Ando K, Yagi H, et al. Prevention and prediction of postoperative bowel bladder disorder using an anal plug electrode with Tc-MsEP monitoring during spine surgery. Nagoya J Med Sci 2017 79:459–66.
pmid pmc
3. Floyd WF, Walls EW. Electromyography of the sphincter ani externus in man. J Physiol 1953 122:599–609.
crossref pmid pmc
4. Haghighi SS, Zhang R. Activation of the external anal and urethral sphincter muscles by repetitive transcranial cortical stimulation during spine surgery. J Clin Monit Comput 2004 18:1–5.
crossref pmid
5. Wiesner A, Jost WH. EMG of the external anal sphincter: needle is superior to surface electrode. Dis Colon Rectum 2000 43:116–8.
crossref pmid
6. Kumar GS, Rajshekhar V, Babu KS. Intraoperative mapping of sacral nervous system (S2-4). Br J Neurosurg 2006 20:396–402.
crossref pmid
7. Inoue S, Kawaguchi M, Takashi S, et al. Intraoperative monitoring of myogenic motor-evoked potentials from the external anal sphincter muscle to transcranial electrical stimulation. Spine (Phila Pa 1976) 2002 27:E454–9.
crossref pmid
8. Muramoto A, Imagama S, Ito Z, et al. The cutoff amplitude of transcranial motor-evoked potentials for predicting postoperative motor deficits in thoracic spine surgery. Spine (Phila Pa 1976) 2013 38:E21–7.
crossref pmid
9. Ito Z, Matsuyama Y, Ando M, et al. What is the best multimodality combination for intraoperative spinal cord monitoring of motor function?: a multicenter study by the Monitoring Committee of the Japanese Society for Spine Surgery and Related Research. Global Spine J 2016 6:234–41.
crossref pmid
10. Teramoto T. Functional characteristics features in anatomy and physiology of the anal canal. Nichisyougekaishi 1990 23:2147–50.
crossref
11. Kothbauer KF, Deletis V. Intraoperative neurophysiology of the conus medullaris and cauda equina. Childs Nerv Syst 2010 26:247–53.
crossref pmid
12. Ito Z, Imagama S, Sakai Y, et al. A new criterion for the alarm point for compound muscle action potentials. J Neurosurg Spine 2012 17:348–56.
crossref pmid
13. Muramoto A, Imagama S, Ito Z, et al. The cutoff amplitude of transcranial motor evoked potentials for transient postoperative motor deficits in intramedullary spinal cord tumor surgery. Spine (Phila Pa 1976) 2014 39:E1086–94.
crossref pmid
14. Kobayashi K, Imagama S, Ito Z, et al. Transcranial motor evoked potential waveform changes in corrective fusion for adolescent idiopathic scoliosis. J Neurosurg Pediatr 2017 19:108–15.
crossref pmid
15. Nandedkar SD, Sanders DB, Stalberg EV, Andreassen S. Simulation of concentric needle EMG motor unit action potentials. Muscle Nerve 1988 11:151–9.
crossref pmid
16. Bischoff C, Stalberg E, Falck B, Eeg-Olofsson KE. Reference values of motor unit action potentials obtained with multi-MUAP analysis. Muscle Nerve 1994 17:842–51.
crossref pmid
17. Kobayashi K, Imagama S, Ito Z, Ando K, Hida T, Ishiguro N. Prevention of spinal cord injury using brain-evoked muscle-action potential (Br(E)-MsEP) monitoring in cervical spinal screw fixation. Eur Spine J 2017 26:1154–61.
crossref pmid pdf

留言 (0)

沒有登入
gif