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Journal Abstract Search

169 related items for PubMed ID: 30586207

  • 1. Computational Study of the Effect of Electrode Polarity on Neural Activation Related to Paresthesia Coverage in Spinal Cord Stimulation Therapy.
    Durá JL, Solanes C, De Andrés J, Saiz J.
    Neuromodulation; 2019 Apr; 22(3):269-279. PubMed ID: 30586207
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  • 2. Effect of Lead Position and Polarity on Paresthesia Coverage in Spinal Cord Stimulation Therapy: A Computational Study.
    Dura JL, Solanes C, De Andres J, Saiz J.
    Neuromodulation; 2022 Jul; 25(5):680-692. PubMed ID: 35131153
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  • 4. Effect of anode-cathode configuration on paresthesia coverage in spinal cord stimulation.
    Holsheimer J, Wesselink WA.
    Neurosurgery; 1997 Sep; 41(3):654-9; discussion 659-60. PubMed ID: 9310984
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  • 5. 3D patient-specific spinal cord computational model for SCS management: potential clinical applications.
    Solanes C, Durá JL, Ángeles Canós M, De Andrés J, Martí-Bonmatí L, Saiz J.
    J Neural Eng; 2021 Mar 16; 18(3):. PubMed ID: 33556926
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  • 7. Triple leads programmed to perform as longitudinal guarded cathodes in spinal cord stimulation: a modeling study.
    Sankarasubramanian V, Buitenweg JR, Holsheimer J, Veltink P.
    Neuromodulation; 2011 Mar 16; 14(5):401-10; discussion 411. PubMed ID: 21854494
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  • 11. Clinical evaluation of paresthesia steering with a new system for spinal cord stimulation.
    Holsheimer J, Nuttin B, King GW, Wesselink WA, Gybels JM, de Sutter P.
    Neurosurgery; 1998 Mar 16; 42(3):541-7; discussion 547-9. PubMed ID: 9526989
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  • 12. Computational modeling analysis of a spinal cord stimulation paddle lead reveals broad, gapless dermatomal coverage.
    Kent AR, Min X, Rosenberg SP, Fayram TA.
    Annu Int Conf IEEE Eng Med Biol Soc; 2014 Mar 16; 2014():6254-7. PubMed ID: 25571426
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  • 13. Epidural Stimulation of Rat Spinal Cord at Lumbosacral Segment Using a Surface Electrode: A Computer Simulation Study.
    Xu Q, Kong L, Zhou H, He J.
    IEEE Trans Neural Syst Rehabil Eng; 2017 Oct 16; 25(10):1763-1772. PubMed ID: 27834648
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  • 14. Significance of the spinal cord position in spinal cord stimulation.
    Holsheimer J, Barolat G, Struijk JJ, He J.
    Acta Neurochir Suppl; 1995 Oct 16; 64():119-24. PubMed ID: 8748598
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  • 15. Biophysics of Frequency-Dependent Variation in Paresthesia and Pain Relief during Spinal Cord Stimulation.
    Rogers ER, Capogrosso M, Lempka SF.
    J Neurosci; 2024 Jun 26; 44(26):. PubMed ID: 38744531
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  • 16. Epidural electrical stimulation of posterior structures of the human lumbosacral cord: 2. quantitative analysis by computer modeling.
    Rattay F, Minassian K, Dimitrijevic MR.
    Spinal Cord; 2000 Aug 26; 38(8):473-89. PubMed ID: 10962608
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  • 18. Implanter's Integrated Information (I3) System: An Aid for Spinal Cord Stimulation Procedures.
    Meier K, Knudsen ALH, Boudreau SA, Sørensen JCH.
    Neuromodulation; 2019 Apr 26; 22(3):290-294. PubMed ID: 30325079
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  • 19. Optimizing sensory fiber activation during cervical transcutaneous spinal stimulation using different electrode configurations: A computational analysis.
    de Freitas RM, Capogrosso M, Nomura T, Milosevic M.
    Artif Organs; 2022 Oct 26; 46(10):2015-2026. PubMed ID: 35642297
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  • 20. Nerve Fiber Activation During Peripheral Nerve Field Stimulation: Importance of Electrode Orientation and Estimation of Area of Paresthesia.
    Frahm KS, Hennings K, Vera-Portocarrero L, Wacnik PW, Mørch CD.
    Neuromodulation; 2016 Apr 26; 19(3):311-8. PubMed ID: 26586248
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