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• 松川　啓太朗（まつかわ　けいたろう）
• 2004年医師免許取得
  医学博士
  日本整形外科学会専門医・認定脊椎脊髄病医
  日本脊椎脊髄病学会指導医
  
  所属学会
  日本整形外科学会
  日本脊椎脊髄病学会
  日本脊椎インストゥルメンテーション学会
  日本MIST学会（評議員）
  関東MISt研究会（世話人）
  Society of Minimally Invasive Spine Surgery (SMISS), Asia-Pacific Section (AP) faculty
  

コメント

整形外科の中でも、特に脊椎脊髄外科を専門にしています。保存的治療から手術治療まで行っていますが、頚や腰の痛みや手足の痛み・しびれを我慢してこられた患者さんにとって、より安全でお体への負担が少ない手術を心掛けております。また、低侵襲脊椎手術、脊椎バイオメカニクス、コンピューターシミュレーションを併用した手術等の研究を行っており、最大限の治療効果をモットーに、整形外科医としてのサイエンスの部分を大切に診療しています。

関連リンク

• 最新の脊椎内視鏡治療「UBE」について
• 最新の低侵襲脊椎固定術 │ 村山医療センター (murayama-hosp.jp
• スマートグラスを用いた最先端脊椎手術 │ トピック │ 村山医療センター (murayama-hosp.jp)」

研究論文

英語論文(筆頭著者)

• 1) Matsukawa K, Yato Y, Nemoto O, et al:
  Morphometric measurement of cortical bone trajectory for lumbar pedicle screw insertion using computed tomography.
  J Spinal Disord Tech 26(6): E248-E253, 2013
• 2) Matsukawa K, Yato Y, Kato T, et al:
  In vivo analysis of insertional torque during pedicle screwing using cortical bone trajectory technique.
  Spine 39(4): E240-E245, 2014
• 3) Matsukawa K, Yato Y, Kato T, et al:
  Cortical bone trajectory for lumbosacral fixation: penetrating S1 endplate screw technique.
  J Neurosurg Spine 21(2): 203-209, 2014
• 4) Matsukawa K, Yato Y, Imabayashi H, et al:
  Biomechanical Evaluation of Fixation Strength of Lumbar Pedicle Screw Using Cortical Bone Trajectory: A Finite Element Study.
  J Neurosurg Spine 23(4): 471-478, 2015
• 5) Matsukawa K, Taguchi E, Yato Y, et al:
  Evaluation of the Fixation Strength of Pedicle Screws Using Cortical Bone Trajectory: What Is the Ideal Trajectory for Optimal Fixation?
  Spine 40(15): E873-E878, 2015
• 6) Matsukawa K, Yato Y, Imabayashi H, et al:
  Biomechanical evaluation of cross trajectory technique for pedicle screw insertion: combined use of traditional trajectory and cortical bone trajectory.
  Orthop Surg 7(4): 317-323, 2015
• 7) Matsukawa K, Yato Y, Imabayashi H, et al:
  Biomechanical evaluation of fixation strength among different sizes of pedicle screws using the cortical bone trajectory: what is the ideal screw size for optimal fixation?
  Acta Neurochir 158(3): 465-471, 2016
• 8) Matsukawa K, Kato T, Yato Y, et al:
  Incidence and risk factors of adjacent cranial facet violation following pedicle screw insertion using cortical bone trajectory technique.
  Spine 41(14), E851-856, 2016
• 9) Matsukawa K, Yato Y, Imabayashi H, et al:
  Biomechanical evaluation of lumbar pedicle screw in spondylolytic vertebra: comparison of fixation strength between traditional trajectory and cortical bone trajectory.
  J Neurosurg Spine 24(6): 910-915, 2016
• 10) Matsukawa K, Yato Y, Hynes RA, et al:
  Cortical Bone Trajectory for Thoracic Pedicle Screws: A Technical Note.
  Clin Spine Surg 30(5): E497-E504, 2017
• 11) Matsukawa K, Yato Y, Hynes RA, et al:
  Comparison of pedicle screw fixation strength among different transpedicular trajectories: A finite element study.
  Clin Spine Surg 30(7): 301-307, 2017
• 12) Matsukawa K, Yato Y:
  Lumbar pedicle screw fixation with cortical bone trajectory: A review from anatomical and biomechanical standpoints
  Spine Surgery and Related Research 1(4): 164-173, 2017
• 13) Matsukawa K, Abe Y, Yanai Y, et al:
  Regional Hounsfield unit measurement of screw trajectory for predicting pedicle screw fixation using cortical bone trajectory: a retrospective cohort study
  Acta Neurochir 160(2): 405-411, 2018
• 14) Matsukawa K, Yato Y, Imabayashi H, et al:
  Feasibility of using tapping torque during lumbar pedicle screw insertion to predict screw fixation strength.
  J Orthop Sci. 25(3): 389-393, 2020
• 15) Matsukawa K, Kaito T, Abe Y:
  Accuracy of cortical bone trajectory screw placement using patient-specific template guide system
  Neurosurg Rev. 43(4): 1135-1142, 2020
• 16) Matsukawa K, Kato T, Mobbs R, et al:
  Combination of sacral-alar-iliac screw and cortical bone trajectory screw techniques for lumbosacral fixation: technical note.
  J Neurosurg Spine. 33(2): 186-191, 2020
• 17) Matsukawa K, Yato Y:
  Smart glasses display device for fluoroscopically guided minimally invasive spinal instrumentation surgery: a preliminary study.
  J Neurosurg Spine. 34(1): 150-155, 2021
• 18) Matsukawa K, Yato Y, Imabayashi H:
  Impact of Screw Diameter and Length on Pedicle Screw Fixation Strength in Osteoporotic Vertebrae: A Finite Element Analysis.
  Asian Spine J. 15(5):566-574, 2021
• 19) Matsukawa K, Yanai Y, Fujiyoshi K, et al :
  Depth of vertebral screw insertion using a cortical bone trajectory technique in lumbar spinal fusion: radiological significance of a long cortical bone trajectory.
  J Neurosurg Spine. 35(5) : 601-606, 2021
• 20) Matsukawa K, Abe Y, Mobbs RJ:
  Novel Technique for Sacral-Alar-Iliac Screw Placement Using Three-Dimensional Patient-Specific Template Guide.
  Spine Surg Relat Res. 5(6):418-424, 2021
• 21) Matsukawa K, Kato T, Fujiyoshi K, et al:
  Radiological comparison of penetrating endplate trajectory versus anterior bicortical trajectory for sacral pedicle screw insertion in posterior lumbosacral interbody fusion.
  J Orthop Sci. 2022 Nov;27(6):1203-1207.
• 22) Matsukawa K, Konomi T, Matsubayashi K, et al:
  Influence of Pedicle Screw Insertion Depth on Posterior Lumbar Interbody Fusion: Radiological Significance of Deeper Screw Placement.
  Global Spine J. 2022 Jun 17:21925682221110142. doi: 10.1177/21925682221110142. Online ahead of print.
• 23) Matsukawa K, Fujiyoshi K, Yanai Y, et al:
  Reduction capacity and factors affecting slip reduction using cortical bone trajectory technique in transforaminal lumbar interbody fusion for degenerative spondylolisthesis.
  Spine Surg Relat Res. 2022 Feb 10;6(5):480-487.
• 24) Matsukawa K, Kaito T, Abe Y:
  Comparison of Safety and Perioperative Outcomes Between Patient-specific Template-Guided and Fluoroscopic-Assisted Freehand Lumbar Screw Placement Using Cortical Bone Trajectory Technique
  Global Spine J. 2022 Nov 30;21925682221143333. doi: 10.1177/21925682221143333. Online ahead of print.

英語論文(共同著者)

• 1) Nemoto O, Kitada A, Tsuda Y, Matsukawa K, Ukegawa Y
  Synchronous lumbar disc herniation in young adult male monozygotic twins: a case report
  Orthopaedic Surgery 4: 60-63, 2012
• 2) Nemoto O, Kitada A, Naitou S, Tsuda Y, Matsukawa K, Ukegawa Y
  A longitudinal study for incidence of low back pain and radiological changes of lumbar spine in asymptomatic Japanese military young adults
  European Spine Journal 22: 453-458, 2013
• 3) Zhen-Hua Feng, Xiao-Bin Li, Nai-Feng Tian, Sun-Ren Sheng, Yan Michael Li, Kevin Phan, Zhong-Ke Lin, Andrei Fernandes Joaquim, Juan Xuan, Yan Lin, Xiang-Yang Wang, Keitaro Matsukawa, Kai Zhang, Jie Zhao, Wen-Fei Ni, Ai-Min Wu
  The technique of cortical bone trajectory screw fixation in spine surgery: a comprehensive literature review
  AME Medical Journal: 3: 8, 2018
• 4) Kaito T, Matsukawa K, Abe Y, Fiechter M, Zhu X, Fantigrossi A.
  Cortical pedicle screw placement in lumbar spinal surgery with a patient-matched targeting guide: A cadaveric study
  J Orthop Sci 23: 865–869, 2018
• 5) Marengo N, Matsukawa K, Monticelli M, Ajello M, Pacca P, Cofano F, Penner F, Zenga F, Ducati A, Garbossa D
  Cortical bone trajectory screw placement accuracy with a patient-matched 3D printed guide in lumbar spinal surgery: a clinical study.
  World Neurosurg. 130: e98-e104, 2019
• 6) Takeuchi T, Hosogane N, Yamagishi K, Satomi K, Matsukawa K, Ichimura S.
  Results of Using a Novel Percutaneous Pedicle Screw Technique for Patients with Diffuse Idiopathic Skeletal Hyperostosis-The Single or Double Endplates Penetrating Screw (SEPS/DEPS) Technique.
  Spine Surg Relat Res. 4(3):261-268, 2020
• 7) Ikuma H, Takao S, Inoue Y, Hirose T, Matsukawa K, Kawasaki K.
  Treatment of Thoracolumbar Spinal Fracture Accompanied by Diffuse Idiopathic Skeletal Hyperostosis Using Transdiscal Screws for Diffuse Idiopathic Skeletal Hyperostosis: Preliminary Results.
  Asian Spine J. 2021 Jun;15(3):340-348.
• 8) Yanai Y, Matsukawa K, Kato T, Yato Y.
Factors important in bone union after posterior lumbar interbody fusion using the cortical bone trajectory technique.
J Spine Surg. 2020 Dec;6(4):713-720.
• 9) Cornaz F, Widmer J, Fasser MR, Snedeker JG, Matsukawa K, Spirig JM, Farshad M.
  Is a cross-connector beneficial for single level traditional or cortical bone trajectory pedicle screw instrumentation?
  PLoS One. 2021 Jun 11;16(6):e0253076.
• 10) Kobayashi Y, Fujiyoshi K, Shimizu T, Kawano Y, Okubo T, Yanai Y, Kato T, Matsubayashi K, Matsukawa K, Furukawa M, Konomi T, Yamane J, Takemitsu M, Yato Y.
  Normal pressure hydrocephalus due to an iatrogenic giant lumbar pseudomeningocele after posterior lumbar interbody fusion: illustrative case.
  J Neurosurg Case Lessons. 2022 Mar 7;3(10):CASE224. doi: 10.3171/CASE224. Print 2022 Mar 7.
• 11) Di Perna G, Marengo N, Matsukawa K, Mahieu G, Baldassarre BM, Petrone S, De Marco R, Zeppa P, Ajello M, Fiumefreddo A, Zenga F, Garbossa D, Cofano F.
  Three-Dimensional Patient-Matched Template Guides Are Able to Increase Mean Diameter and Length and to Improve Accuracy of Cortical Bone Trajectory Screws: A 5-Year International Experience.
  World Neurosurg. 2023 Feb;170:e542-e549.

英文執筆 (Published book)

• 1) Keitaro Matsukawa
  New techniques and MIS – the cortical bone trajectory screws: indications and limits
  Modern Thoraco-Lumbar Implants for Spinal Fusion, R. Delfini et al. (eds), 2017, Springer

英語著書監修

• 1) Widmer J, Aubin CE, van Lenthe GH, Matsukawa K.
  Editorial: Innovations to improve screw fixation in traumatology and orthopedic surgery.
  Front Bioeng Biotechnol. 2022 Nov 25;10:1094813. doi: 10.3389/fbioe.2022.1094813. eCollection 2022.