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583 related items for PubMed ID: 32131970

  • 1. [Evaluation of a Combination of Waveform Amplitude Latency and Decrease of Waveform Amplitude Magnitude during Spinal Surgery in Intraoperative Neurophysiological Monitoring of Transcranial Motor Evoked Potentials and Its Incidence on Postoperative Neurological Deficit].
    Beňuška J, Čembová N, Naser Y, Žabka M, Pasiar J, Švec A.
    Acta Chir Orthop Traumatol Cech; 2020; 87(1):39-47. PubMed ID: 32131970
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  • 2. A new criterion for the alarm point using a combination of waveform amplitude and onset latency in Br(E)-MsEP monitoring in spine surgery.
    Kobayashi K, Ando K, Shinjo R, Ito K, Tsushima M, Morozumi M, Tanaka S, Machino M, Ota K, Ishiguro N, Imagama S.
    J Neurosurg Spine; 2018 Oct; 29(4):435-441. PubMed ID: 30052151
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  • 5. Transcranial motor evoked potential waveform changes in corrective fusion for adolescent idiopathic scoliosis.
    Kobayashi K, Imagama S, Ito Z, Ando K, Hida T, Ito K, Tsushima M, Ishikawa Y, Matsumoto A, Nishida Y, Ishiguro N.
    J Neurosurg Pediatr; 2017 Jan; 19(1):108-115. PubMed ID: 27689243
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  • 6. Characteristics of Cases with Poor Transcranial Motor-evoked Potentials Baseline Waveform Derivation in Spine Surgery: A Prospective Multicenter Study of the Monitoring Committee of the Japanese Society for Spine Surgery and Related Research.
    Kobayashi K, Imagama S, Ando K, Yoshida G, Ando M, Kawabata S, Yamada K, Kanchiku T, Fujiwara Y, Taniguchi S, Iwasaki H, Shigematsu H, Tadokoro N, Takahashi M, Wada K, Yamamoto N, Funaba M, Yasuda A, Ushirozako H, Hashimoto J, Morito S, Takatani N, Tani T, Matsuyama Y.
    Spine (Phila Pa 1976); 2021 Nov 15; 46(22):E1211-E1219. PubMed ID: 34714796
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  • 7. Retrospective Waveform Analysis of Transcranial Motor Evoked Potentials (MEP) to Identify Early Predictors of Impending Motor Deficits in Spinal Surgeries.
    Le S, Nguyen V, Ekwueme AC, Cho SC, Lee L, López J.
    Neurodiagn J; 2017 Nov 15; 57(1):53-68. PubMed ID: 28436812
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  • 8. Effects of Preoperative Motor Status on Intraoperative Motor-evoked Potential Monitoring for High-risk Spinal Surgery: A Prospective Multicenter Study.
    Kobayashi K, Imagama S, Yoshida G, Ando M, Kawabata S, Yamada K, Kanchiku T, Fujiwara Y, Taniguchi S, Iwasaki H, Tadokoro N, Takahashi M, Wada K, Yamamoto N, Shigematsu H, Funaba M, Yasuda A, Kobayashi S, Ushirozako H, Tani T, Matsuyama Y.
    Spine (Phila Pa 1976); 2021 Jun 15; 46(12):E694-E700. PubMed ID: 34027929
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  • 9. Characteristics of Tc-MEP Waveforms in Spine Surgery for Patients with Severe Obesity.
    Kobayashi K, Ando K, Yoshida G, Ando M, Kawabata S, Yamada K, Kanchiku T, Fujiwara Y, Taniguchi S, Iwasaki H, Shigematsu H, Tadokoro N, Takahashi M, Wada K, Yamamoto N, Funaba M, Yasuda A, Ushirozako H, Hashimoto J, Morito S, Takatani T, Tani T, Matsuyama Y, Imagama S.
    Spine (Phila Pa 1976); 2021 Dec 15; 46(24):1738-1747. PubMed ID: 33958540
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  • 10. Which patients do we need to consider augmentation of muscle active potentials regarding transcranial electrical stimulation motor-evoked potentials monitoring before spine surgery?
    Mui T, Shigematsu H, Takatani T, Ikejiri M, Kawasaki S, Hayashi H, Kawaguchi M, Tanaka Y.
    Spine J; 2024 Sep 15; 24(9):1635-1644. PubMed ID: 38679074
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  • 11. The influence of anesthesia on intraoperative neurophysiological monitoring during spinal surgeries.
    Benuska J, Plisova M, Zabka M, Horvath J, Tisovsky P, Novorolsky K.
    Bratisl Lek Listy; 2019 Sep 15; 120(10):794-801. PubMed ID: 31663357
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  • 12. Utility of motor evoked potentials to diagnose and reduce lower extremity motor nerve root injuries during 4,386 extradural posterior lumbosacral spine procedures.
    Wilent WB, Tesdahl EA, Harrop JS, Welch WC, Cannestra AF, Poelstra KA, Epplin-Zapf T, Stivali T, Cohen J, Sestokas AK.
    Spine J; 2020 Feb 15; 20(2):191-198. PubMed ID: 31479780
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  • 14. Characteristics of Tc-MEP Waveforms for Different Locations of Intradural Extramedullary Tumors: A Prospective Multicenter Study of the Monitoring Committee of the Japanese Society for Spine Surgery and Related Research.
    Kobayashi K, Imagama S, Ando K, Yoshida G, Ando M, Kawabata S, Yamada K, Kanchiku T, Fujiwara Y, Taniguchi S, Iwasaki H, Shigematsu H, Tadokoro N, Takahashi M, Wada K, Yamamoto N, Funaba M, Yasuda A, Ushirozako H, Hashimoto J, Morito S, Takatani T, Tani T, Matsuyama Y.
    Spine (Phila Pa 1976); 2022 Jan 15; 47(2):172-179. PubMed ID: 34474444
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  • 15. Utility of intraoperative neurophysiological monitoring in detecting motor and sensory nerve injuries in pediatric high-grade spondylolisthesis.
    Iorio C, Koucheki R, Strantzas S, Vandenberk M, Lewis SJ, Zeller R, Camp M, Rocos B, Lebel DE.
    Spine J; 2023 Dec 15; 23(12):1920-1927. PubMed ID: 37572881
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  • 18. How to make the best use of intraoperative motor evoked potential monitoring? Experience in 1162 consecutive spinal deformity surgical procedures.
    Zhuang Q, Wang S, Zhang J, Zhao H, Wang Y, Tian Y, Zhao Y, Li S, Weng X, Qiu G, Shen J.
    Spine (Phila Pa 1976); 2014 Nov 15; 39(24):E1425-32. PubMed ID: 25387144
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  • 19. Intraoperative neurophysiological monitoring for intradural extramedullary spinal tumors: predictive value and relevance of D-wave amplitude on surgical outcome during a 10-year experience.
    Ghadirpour R, Nasi D, Iaccarino C, Romano A, Motti L, Sabadini R, Valzania F, Servadei F.
    J Neurosurg Spine; 2019 Feb 01; 30(2):259-267. PubMed ID: 30497134
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  • 20. The Interpretation of Muscle Motor Evoked Potentials for Spinal Cord Monitoring.
    Kothbauer KF.
    J Clin Neurophysiol; 2017 Jan 01; 34(1):32-37. PubMed ID: 28045855
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