Failed back surgery syndrome (FBSS) に対する脊髄刺激療法のこれまでとこれから
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| Published in | 脊髄外科 Vol. 35; no. 1; pp. 31 - 38 |
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| Main Author | |
| Format | Journal Article |
| Language | Japanese |
| Published |
日本脊髄外科学会
2021
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0914-6024 1880-9359 |
| DOI | 10.2531/spinalsurg.35.31 |
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| Author | 笹森, 徹 |
|---|---|
| Author_xml | – sequence: 1 fullname: 笹森, 徹 organization: 札幌麻生脳神経外科病院 |
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| ContentType | Journal Article |
| Copyright | 2021 日本脊髄外科学会 |
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| DOI | 10.2531/spinalsurg.35.31 |
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| References | 9) Brox JI, Reikerås O, Nygaard Ø, et al : Lumbar instrumented fusion compared with cognitive intervention and exercises in patients with chronic back pain after previous surgery for disc herniation : a prospective randomized controlled study. Pain 122 : 145-155, 2006 38) 日本整形外科学会診療ガイドライン委員会, 腰痛診療ガイドライン策定委員会 : 腰痛診療ガイドライン2019改訂第2版. 東京, 南江堂, 2019, pp67-68 19) De Ridder D, Plazier M, Kamerling N, et al : Burst spinal cord stimulation for limb and back pain. World Neurosurg 80 : 642-649, 2013 57) Miller JP, Eldabe S, Buchser E, et al : Parameters of spinal cord stimulation and their role in electrical charge delivery : a review. Neuromodulation 19 : 373-384, 2016 61) Vallejo R, Kelley CA, Gupta A, et al : Modulation of neuroglial interactions using differential target multiplexed spinal cord stimulation in an animal model of neuropathic pain. Mol Pain 16 : 1744806920918057, 2020 24) De Andres J, Monsalve-Dolz V, Fabregat-Cid G, et al : Prospective, randomized blind effect-on-outcome study of conventional vs high-frequency spinal cord stimulation in patients with pain and disability due to failed back surgery syndrome. Pain Med 18 : 2401-2421, 2017 53) Turner JA, Hollingworth W, Comstock BA, et al : Spinal cord stimulation for failed back surgery syndrome : outcomes in a workers' compensation setting. Pain 148 : 14-25, 2010 7) Rigoard P, Gatzinsky K, Deneuville JP, et al : Optimizing the management and outcomes of failed back surgery syndrome : a consensus statement on definition and outlines for patient assessment. Pain Res Manag 2019 : 3126464, 2019 31) Rigoard P, Basu S, Desai M, et al : Multicolumn spinal cord stimulation for predominant back pain in failed back surgery syndrome patients : a multicenter randomized controlled trial. Pain 160 : 1410-1420, 2019 36) Niyomsri S, Duarte RV, Eldabe S, et al : A systematic review of economic evaluations reporting the cost-effectiveness of spinal cord stimulation. Value Health 23 : 656-665, 2020 39) 日本定位・機能神経外科学会ガイドライン作成委員会・実行委員会 : 定位・機能神経外科治療ガイドライン第3版. 東京, マイライフ, 2019, pp84-88 21) Kapural L, Yu C, Doust MW, et al : Novel 10-kHz high-frequency therapy (HF10 therapy) is superior to traditional low-frequency spinal cord stimulation for the treatment of chronic back and leg pain : the SENZA-RCT randomized controlled trial. Anesthesiology 123 : 851-860, 2015 11) North RB, Kidd DH, Petrucci L, et al : Spinal cord stimulation electrode design : a prospective, randomized, controlled trial comparing percutaneous with laminectomy electrodes : part II-clinical outcomes. Neurosurgery 57 : 990-996, 2005 20) Schu S, Slotty PJ, Bara G, et al : A prospective, randomised, double-blind, placebo-controlled study to examine the effectiveness of burst spinal cord stimulation patterns for the treatment of failed back surgery syndrome. Neuromodulation 17 : 443-450, 2014 28) Duse G, Reverberi C, Dario A : Effects of multiple waveforms on patient preferences and clinical outcomes in patients treated with spinal cord stimulation for leg and/or back pain. Neuromodulation 22 : 200-207, 2019 8) Amirdelfan K, Webster L, Poree L, et al : Treatment options for failed back surgery syndrome patients with refractory chronic pain : an evidence based approach. Spine 42 (Suppl 14) : S41-52, 2017 40) Kumar K, Hunter G, Demeria D : Spinal cord stimulation in treatment of chronic benign pain : challenges in treatment planning and present status, a 22-year experience. Neurosurgery 58 : 481-496, 2006 23) North JM, Hong KJ, Cho PY : Clinical outcomes of 1kHz subperception spinal cord stimulation in implanted patients with failed paresthesia-based stimulation : results of a prospective randomized controlled trial. Neuromodulation 19 : 731-737, 2016 43) Tiede J, Brown L, Gekht G, et al : Novel spinal cord stimulation parameters in patients with predominant back pain. Neuromodulation 16 : 370-375, 2013 30) North RB, Calodney A, Bolash R, et al : Redefining spinal cord stimulation “Trials” : a randomized controlled trial using single-stage wireless permanent implantable devices. Neuromodulation 23 : 96-101, 2020 22) Kapural L, Yu C, Doust MW, et al : Comparison of 10-kHz high-frequency and traditional low-frequency spinal cord stimulation for the treatment of chronic back and leg pain : 24-month results from a multicenter, randomized, controlled pivotal trial. Neurosurgery 79 : 667-677, 2016 1) North RB, Campbell JN, James CS, et al : Failed back surgery syndrome : 5-year follow-up in 102 patients undergoing repeated operation. Neurosurgery 28 : 685-690, 1991 16) Kumar K, Taylor RS, Jacques L, et al : The effects of spinal cord stimulation in neuropathic pain are sustained : a 24-month follow-up of the prospective randomized controlled multicenter trial of the effectiveness of spinal cord stimulation. Neurosurgery 63 : 762-770, 2008 32) Rigoard P, Billot M, Ingrand P, et al : How should we use multicolumn spinal cord stimulation to optimize back pain spatial neural targeting? A prospective, multicenter, randomized, double-blind, controlled trial (ESTIMET Study). Neuromodulation 24 : 86-101, 2021 55) Do TT, Smet I, Jerjir A, et al : Real-world analysis : long-term effect of spinal cord stimulation with different waveforms for patients with failed back surgery syndrome. Pain Pract 21 : 215-225, 2021 60) De Jaeger M, Goudman L, Brouns R, et al : The Long-term response to high-dose spinal cord stimulation in patients with failed back surgery syndrome after conversion from standard spinal cord stimulation : an effectiveness and prediction study. Neuromodulation, doi : 10.1111/ner.13138, 2020 64) Holsheimer J, Barolat G, Struijk JJ, et al : Significance of the spinal cord position in spinal cord stimulation. Acta Neurochir Suppl 64 : 119-124, 1995 13) North RB, Kidd D, Shipley J, et al : Spinal cord stimulation versus reoperation for failed back surgery syndrome : a cost effectiveness and cost utility analysis based on a randomized, controlled trial. Neurosurgery 61 : 361-368, 2007 14) Kumar K, North R, Taylor R, et al : Spinal cord stimulation vs. conventional medical management : a prospective, randomized, controlled, multicenter study of patients with failed back surgery syndrome (PROCESS Study). Neuromodulation 8 : 213-218, 2005 10) North RB, Kidd DH, Olin JC, et al : Spinal cord stimulation electrode design : prospective, randomized, controlled trial comparing percutaneous and laminectomy electrodes-part I : technical outcomes. Neurosurgery 51 : 381-389, 2002 63) Holsheimer J, den Boer JA, Struijk JJ, et al : MR assessment of the normal position of the spinal cord in the spinal canal. AJNR Am J Neuroradiol 15 : 951-959, 1994 47) Kapural L, Peterson E, Provenzano DA, et al : Clinical evidence for spinal cord stimulation for failed back surgery syndrome (FBSS) : systematic review. Spine 42 Suppl 14 : S61-66, 2017 65) Holsheimer J, Khan YN, Raza SS, et al : Effects of electrode positioning on perception threshold and paresthesia coverage in spinal cord stimulation. Neuromodulation 10 : 34-41, 2007 54) Fama CA, Chen N, Prusik J, et al : The use of preoperative psychological evaluations to predict spinal cord stimulation success : our experience and a review of the literature. Neuromodulation 19 : 429-436, 2016 66) Russo M, Cousins MJ, Brooker C, et al : Effective relief of pain and associated symptoms with closed-loop spinal cord stimulation system : preliminary results of the Avalon study. Neuromodulation 21 : 38-47, 2018 44) De Ridder D, Vanneste S, Plazier M, et al : Burst spinal cord stimulation : toward paresthesia-free pain suppression. Neurosurgery 66 : 986-990, 2010 59) Hamm-Faber TE, Gültuna I, Van Gorp EJ, et al : High-dose spinal cord stimulation for treatment of chronic low back pain and leg pain in patients with FBSS, 12-month results : a prospective pilot study. Neuromodulation 23 : 118-125, 2020 62) Fishman MA, Calodney A, Kim P, et al : Prospective, multicenter feasibility study to evaluate differential target multiplexed spinal cord stimulation programming in subjects with chronic intractable back pain with or without leg pain. Pain Pract 20 : 761-768, 2020 67) Russo M, Brooker C, Cousins MJ, et al : Sustained long-term outcomes with closed-loop spinal cord stimulation : 12-month results of the prospective, multicenter, open-label Avalon study. Neurosurgery 87 : E485-495, 2020 46) Al-Kaisy A, Van Buyten JP, Smet I, et al : Sustained effectiveness of 10kHz high-frequency spinal cord stimulation for patients with chronic, low back pain : 24-month results of a prospective multicenter study. Pain Med 15 : 347-354, 2014 51) Doleys DM : Psychological factors in spinal cord stimulation therapy : brief review and discussion. Neurosurg Focus 21 : E1, 2006 3) 慢性疼痛治療ガイドライン作成ワーキンググループ : 慢性疼痛治療ガイドライン. 東京, 真興交易医書出版部, 2018, pp101-105 6) Gatzinsky K, Eldabe S, Deneuville JP, et al : Optimizing the management and outcomes of failed back surgery syndrome : a proposal of a standardized multidisciplinary team care pathway. Pain Res Manag 2019 : 8184592, 2019 45) Van Buyten JP, Al-Kaisy A, Smet I, et al : High-frequency spinal cord stimulation for the treatment of chronic back pain patients : results of a prospective multicenter European clinical study. Neuromodulation 16 : 59-65, 2013 12) North RB, Kidd DH, Farrokhi F, et al : Spinal cord stimulation versus repeated lumbosacral spine surgery for chronic pain : a randomized, controlled trial. Neurosurgery 56 : 98-106, 2005 17) Schultz DM, Webster L, Kosek P, et al : Sensor-driven position-adaptive spinal cord stimulation for chronic pain. Pain Physician 15 : 1-12, 2012 18) Wolter T, Kiemen A, Porzelius C, et al : Effects of sub-perception threshold spinal cord stimulation in neuropathic pain : a randomized controlled double-blind crossover study. Eur J Pain 16 : 648-655, 2012 58) Wille F, Breel JS, Bakker EW, et al : Altering conventional to high density spinal cord stimulation : an energy dose-response relationship in neuropathic pain therapy. Neuromodulation 20 : 71-80, 2017 33) Mekhail N, Levy RM, Deer TR, et al : Lon |
| References_xml | – reference: 6) Gatzinsky K, Eldabe S, Deneuville JP, et al : Optimizing the management and outcomes of failed back surgery syndrome : a proposal of a standardized multidisciplinary team care pathway. Pain Res Manag 2019 : 8184592, 2019 – reference: 19) De Ridder D, Plazier M, Kamerling N, et al : Burst spinal cord stimulation for limb and back pain. World Neurosurg 80 : 642-649, 2013 – reference: 13) North RB, Kidd D, Shipley J, et al : Spinal cord stimulation versus reoperation for failed back surgery syndrome : a cost effectiveness and cost utility analysis based on a randomized, controlled trial. Neurosurgery 61 : 361-368, 2007 – reference: 29) Bolash R, Creamer M, Rauck R, et al : Wireless high-frequency spinal cord stimulation (10kHz) compared with multiwaveform low-frequency spinal cord stimulation in the management of chronic pain in failed back surgery syndrome subjects : preliminary results of a multicenter, prospective randomized controlled study. Pain Med 20 : 1971-1979, 2019 – reference: 33) Mekhail N, Levy RM, Deer TR, et al : Long-term safety and efficacy of closed-loop spinal cord stimulation to treat chronic back and leg pain (Evoke) : a double-blind, randomised, controlled trial. Lancet Neurol 19 : 123-134, 2020 – reference: 23) North JM, Hong KJ, Cho PY : Clinical outcomes of 1kHz subperception spinal cord stimulation in implanted patients with failed paresthesia-based stimulation : results of a prospective randomized controlled trial. Neuromodulation 19 : 731-737, 2016 – reference: 63) Holsheimer J, den Boer JA, Struijk JJ, et al : MR assessment of the normal position of the spinal cord in the spinal canal. AJNR Am J Neuroradiol 15 : 951-959, 1994 – reference: 20) Schu S, Slotty PJ, Bara G, et al : A prospective, randomised, double-blind, placebo-controlled study to examine the effectiveness of burst spinal cord stimulation patterns for the treatment of failed back surgery syndrome. Neuromodulation 17 : 443-450, 2014 – reference: 58) Wille F, Breel JS, Bakker EW, et al : Altering conventional to high density spinal cord stimulation : an energy dose-response relationship in neuropathic pain therapy. Neuromodulation 20 : 71-80, 2017 – reference: 2) Chan CW, Peng P : Failed back surgery syndrome. Pain Med 12 : 577-606, 2011 – reference: 32) Rigoard P, Billot M, Ingrand P, et al : How should we use multicolumn spinal cord stimulation to optimize back pain spatial neural targeting? A prospective, multicenter, randomized, double-blind, controlled trial (ESTIMET Study). Neuromodulation 24 : 86-101, 2021 – reference: 49) Remacle TY, Bonhomme VL, Renwart HP, et al : Effect of multicolumn lead spinal cord stimulation on low back pain in failed back surgery patients : a three-year follow-up. Neuromodulation 20 : 668-674, 2017 – reference: 31) Rigoard P, Basu S, Desai M, et al : Multicolumn spinal cord stimulation for predominant back pain in failed back surgery syndrome patients : a multicenter randomized controlled trial. Pain 160 : 1410-1420, 2019 – reference: 10) North RB, Kidd DH, Olin JC, et al : Spinal cord stimulation electrode design : prospective, randomized, controlled trial comparing percutaneous and laminectomy electrodes-part I : technical outcomes. Neurosurgery 51 : 381-389, 2002 – reference: 36) Niyomsri S, Duarte RV, Eldabe S, et al : A systematic review of economic evaluations reporting the cost-effectiveness of spinal cord stimulation. Value Health 23 : 656-665, 2020 – reference: 18) Wolter T, Kiemen A, Porzelius C, et al : Effects of sub-perception threshold spinal cord stimulation in neuropathic pain : a randomized controlled double-blind crossover study. Eur J Pain 16 : 648-655, 2012 – reference: 64) Holsheimer J, Barolat G, Struijk JJ, et al : Significance of the spinal cord position in spinal cord stimulation. Acta Neurochir Suppl 64 : 119-124, 1995 – reference: 60) De Jaeger M, Goudman L, Brouns R, et al : The Long-term response to high-dose spinal cord stimulation in patients with failed back surgery syndrome after conversion from standard spinal cord stimulation : an effectiveness and prediction study. Neuromodulation, doi : 10.1111/ner.13138, 2020 – reference: 7) Rigoard P, Gatzinsky K, Deneuville JP, et al : Optimizing the management and outcomes of failed back surgery syndrome : a consensus statement on definition and outlines for patient assessment. Pain Res Manag 2019 : 3126464, 2019 – reference: 52) Celestin J, Edwards RR, Jamison RN : Pretreatment psychosocial variables as predictors of outcomes following lumbar surgery and spinal cord stimulation : a systematic review and literature synthesis. Pain Med 10 : 639-653, 2009 – reference: 9) Brox JI, Reikerås O, Nygaard Ø, et al : Lumbar instrumented fusion compared with cognitive intervention and exercises in patients with chronic back pain after previous surgery for disc herniation : a prospective randomized controlled study. Pain 122 : 145-155, 2006 – reference: 3) 慢性疼痛治療ガイドライン作成ワーキンググループ : 慢性疼痛治療ガイドライン. 東京, 真興交易医書出版部, 2018, pp101-105 – reference: 39) 日本定位・機能神経外科学会ガイドライン作成委員会・実行委員会 : 定位・機能神経外科治療ガイドライン第3版. 東京, マイライフ, 2019, pp84-88 – reference: 57) Miller JP, Eldabe S, Buchser E, et al : Parameters of spinal cord stimulation and their role in electrical charge delivery : a review. Neuromodulation 19 : 373-384, 2016 – reference: 12) North RB, Kidd DH, Farrokhi F, et al : Spinal cord stimulation versus repeated lumbosacral spine surgery for chronic pain : a randomized, controlled trial. Neurosurgery 56 : 98-106, 2005 – reference: 28) Duse G, Reverberi C, Dario A : Effects of multiple waveforms on patient preferences and clinical outcomes in patients treated with spinal cord stimulation for leg and/or back pain. Neuromodulation 22 : 200-207, 2019 – reference: 35) Farber SH, Han JL, Elsamadicy AA, et al : Long-term cost utility of spinal cord stimulation in patients with failed back surgery syndrome. Pain Physician 20 : E797-805, 2017 – reference: 37) 日本ペインクリニック学会, インターベンショナル痛み治療ガイドライン作成チーム : インターベンショナル痛み治療ガイドライン. 東京, 真興交易医書出版部, 2014, pp77-88 – reference: 45) Van Buyten JP, Al-Kaisy A, Smet I, et al : High-frequency spinal cord stimulation for the treatment of chronic back pain patients : results of a prospective multicenter European clinical study. Neuromodulation 16 : 59-65, 2013 – reference: 15) Kumar K, Taylor RS, Jacques L, et al : Spinal cord stimulation versus conventional medical management for neuropathic pain : a multicentre randomised controlled trial in patients with failed back surgery syndrome. Pain 132 : 179-188, 2007 – reference: 5) Weir S, Samnaliev M, Kuo TC, et al : The incidence and healthcare costs of persistent postoperative pain following lumbar spine surgery in the UK : a cohort study using the Clinical Practice Research Datalink (CPRD) and Hospital Episode Statistics (HES). BMJ Open 7 : e017585, 2017 – reference: 22) Kapural L, Yu C, Doust MW, et al : Comparison of 10-kHz high-frequency and traditional low-frequency spinal cord stimulation for the treatment of chronic back and leg pain : 24-month results from a multicenter, randomized, controlled pivotal trial. Neurosurgery 79 : 667-677, 2016 – reference: 47) Kapural L, Peterson E, Provenzano DA, et al : Clinical evidence for spinal cord stimulation for failed back surgery syndrome (FBSS) : systematic review. Spine 42 Suppl 14 : S61-66, 2017 – reference: 17) Schultz DM, Webster L, Kosek P, et al : Sensor-driven position-adaptive spinal cord stimulation for chronic pain. Pain Physician 15 : 1-12, 2012 – reference: 30) North RB, Calodney A, Bolash R, et al : Redefining spinal cord stimulation “Trials” : a randomized controlled trial using single-stage wireless permanent implantable devices. Neuromodulation 23 : 96-101, 2020 – reference: 1) North RB, Campbell JN, James CS, et al : Failed back surgery syndrome : 5-year follow-up in 102 patients undergoing repeated operation. Neurosurgery 28 : 685-690, 1991 – reference: 51) Doleys DM : Psychological factors in spinal cord stimulation therapy : brief review and discussion. Neurosurg Focus 21 : E1, 2006 – reference: 53) Turner JA, Hollingworth W, Comstock BA, et al : Spinal cord stimulation for failed back surgery syndrome : outcomes in a workers' compensation setting. Pain 148 : 14-25, 2010 – reference: 8) Amirdelfan K, Webster L, Poree L, et al : Treatment options for failed back surgery syndrome patients with refractory chronic pain : an evidence based approach. Spine 42 (Suppl 14) : S41-52, 2017 – reference: 55) Do TT, Smet I, Jerjir A, et al : Real-world analysis : long-term effect of spinal cord stimulation with different waveforms for patients with failed back surgery syndrome. Pain Pract 21 : 215-225, 2021 – reference: 41) North RB, Ewend MG, Lawton MT, et al : Failed back surgery syndrome : 5-year follow-up after spinal cord stimulator implantation. Neurosurgery 28 : 692-699, 1991 – reference: 46) Al-Kaisy A, Van Buyten JP, Smet I, et al : Sustained effectiveness of 10kHz high-frequency spinal cord stimulation for patients with chronic, low back pain : 24-month results of a prospective multicenter study. Pain Med 15 : 347-354, 2014 – reference: 66) Russo M, Cousins MJ, Brooker C, et al : Effective relief of pain and associated symptoms with closed-loop spinal cord stimulation system : preliminary results of the Avalon study. Neuromodulation 21 : 38-47, 2018 – reference: 43) Tiede J, Brown L, Gekht G, et al : Novel spinal cord stimulation parameters in patients with predominant back pain. Neuromodulation 16 : 370-375, 2013 – reference: 62) Fishman MA, Calodney A, Kim P, et al : Prospective, multicenter feasibility study to evaluate differential target multiplexed spinal cord stimulation programming in subjects with chronic intractable back pain with or without leg pain. Pain Pract 20 : 761-768, 2020 – reference: 61) Vallejo R, Kelley CA, Gupta A, et al : Modulation of neuroglial interactions using differential target multiplexed spinal cord stimulation in an animal model of neuropathic pain. Mol Pain 16 : 1744806920918057, 2020 – reference: 14) Kumar K, North R, Taylor R, et al : Spinal cord stimulation vs. conventional medical management : a prospective, randomized, controlled, multicenter study of patients with failed back surgery syndrome (PROCESS Study). Neuromodulation 8 : 213-218, 2005 – reference: 42) North RB, Kidd DH, Zahurak M, et al : Spinal cord stimulation for chronic, intractable pain : experience over two decades. Neurosurgery 32 : 384-394, 1993 – reference: 48) Villavicencio AT, Leveque JC, Rubin L, et al : Laminectomy versus percutaneous electrode placement for spinal cord stimulation. Neurosurgery 46 : 399-405, 2000 – reference: 59) Hamm-Faber TE, Gültuna I, Van Gorp EJ, et al : High-dose spinal cord stimulation for treatment of chronic low back pain and leg pain in patients with FBSS, 12-month results : a prospective pilot study. Neuromodulation 23 : 118-125, 2020 – reference: 40) Kumar K, Hunter G, Demeria D : Spinal cord stimulation in treatment of chronic benign pain : challenges in treatment planning and present status, a 22-year experience. Neurosurgery 58 : 481-496, 2006 – reference: 34) Eldabe S, Duarte RV, Gulve A, et al : Does a screening trial for spinal cord stimulation in patients with chronic pain of neuropathic origin have clinical utility and cost-effectiveness (TRIAL-STIM)? A randomised controlled trial. Pain 161 : 2820-2829, 2020 – reference: 65) Holsheimer J, Khan YN, Raza SS, et al : Effects of electrode positioning on perception threshold and paresthesia coverage in spinal cord stimulation. Neuromodulation 10 : 34-41, 2007 – reference: 44) De Ridder D, Vanneste S, Plazier M, et al : Burst spinal cord stimulation : toward paresthesia-free pain suppression. Neurosurgery 66 : 986-990, 2010 – reference: 21) Kapural L, Yu C, Doust MW, et al : Novel 10-kHz high-frequency therapy (HF10 therapy) is superior to traditional low-frequency spinal cord stimulation for the treatment of chronic back and leg pain : the SENZA-RCT randomized controlled trial. Anesthesiology 123 : 851-860, 2015 – reference: 24) De Andres J, Monsalve-Dolz V, Fabregat-Cid G, et al : Prospective, randomized blind effect-on-outcome study of conventional vs high-frequency spinal cord stimulation in patients with pain and disability due to failed back surgery syndrome. Pain Med 18 : 2401-2421, 2017 – reference: 4) Inoue S, Kamiya M, Nishihara M, et al : Prevalence, characteristics, and burden of failed back surgery syndrome : the influence of various residual symptoms on patient satisfaction and quality of life as assessed by a nationwide Internet survey in Japan. J Pain Res 10 : 811-823, 2017 – reference: 50) Taylor RS, Desai MJ, Rigoard P, et al : Predictors of pain relief following spinal cord stimulation in chronic back and leg pain and failed back surgery syndrome : a systematic review and meta-regression analysis. Pain Pract 14 : 489-505, 2014 – reference: 27) Thomson SJ, Tavakkolizadeh M, Love-Jones S, et al : Effects of rate on analgesia in kilohertz frequency spinal cord stimulation : results of the PROCO randomized controlled trial. Neuromodulation 21 : 67-76, 2018 – reference: 16) Kumar K, Taylor RS, Jacques L, et al : The effects of spinal cord stimulation in neuropathic pain are sustained : a 24-month follow-up of the prospective randomized controlled multicenter trial of the effectiveness of spinal cord stimulation. Neurosurgery 63 : 762-770, 2008 – reference: 54) Fama CA, Chen N, Prusik J, et al : The use of preoperative psychological evaluations to predict spinal cord stimulation success : our experience and a review of the literature. Neuromodulation 19 : 429-436, 2016 – reference: 26) Deer T, Slavin KV, Amirdelfan K, et al : Success using neuromodulation with BURST (SUNBURST) study : results from a prospective, randomized controlled trial using a novel burst waveform. Neuromodulation 21 : 56-66, 2018 – reference: 11) North RB, Kidd DH, Petrucci L, et al : Spinal cord stimulation electrode design : a prospective, randomized, controlled trial comparing percutaneous with laminectomy electrodes : part II-clinical outcomes. Neurosurgery 57 : 990-996, 2005 – reference: 38) 日本整形外科学会診療ガイドライン委員会, 腰痛診療ガイドライン策定委員会 : 腰痛診療ガイドライン2019改訂第2版. 東京, 南江堂, 2019, pp67-68 – reference: 67) Russo M, Brooker C, Cousins MJ, et al : Sustained long-term outcomes with closed-loop spinal cord stimulation : 12-month results of the prospective, multicenter, open-label Avalon study. Neurosurgery 87 : E485-495, 2020 – reference: 25) Al-Kaisy A, Palmisani S, Pang D, et al : Prospective, randomized, sham-control, double blind, crossover trial of subthreshold spinal cord stimulation at various kilohertz frequencies in subjects suffering from failed back surgery syndrome (SCS frequency study). Neuromodulation 21 : 457-465, 2018 – reference: 56) De Ridder D, Vancamp T, Lenders MW, et al : Is preoperative pain duration important in spinal cord stimulation? A comparison between tonic and burst stimulation. Neuromodulation 18 : 13-17, 2015 |
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| Title | Failed back surgery syndrome (FBSS) に対する脊髄刺激療法のこれまでとこれから |
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| ispartofPNX | 脊髄外科, 2021, Vol.35(1), pp.31-38 |
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