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Title	変形性股関節症の病態生理学と痛みの治療
Subtitle	特集運動器慢性疼痛の病態と治療
Authors	園畑素樹1, 馬渡正明1
Authors (kana)
Organization	1.佐賀大学医学部整形外科
Journal	関節外科
Volume	41
Number	7
Page	782-788
Year/Month	2022 / 7
Article	報告
Publisher	メジカルビュー社
Abstract	「Summary」わが国の変形性股関節症(osteoarthritis of the hip; 股OA)の原因は発育性股関節形成不全症(developmental dysplasia of hip joint; DDH)が最も多いが, 原因は多岐にわたるため, 病態生理を理解することが重要である. また, 治療にあたっては, 股OAの疼痛の原因を十分に把握する必要がある. 病態生理と疼痛の原因を把握したうえで, 治療を行うことが, 良好な治療成績を得るために肝要である.
Practice	臨床医学：外科系
Keywords	変形性股関節症(osteoarthritis of the hip;股OA), 発育性股関節形成不全症(developmental dysplasia of hip joint;DDH), 痛覚変調性疼痛(nociplastic pain), 中枢性感作(central sensitization), 人工股関節全置換術(total hip arthroplasty;THA)

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参考文献

1) 日本整形外科, 日本股関節学会. 変形性股関節症診療ガイドライン改訂第2版. 東京 : 南江堂 ; 2016.
2) Kellgren J, Lawrence JS. Radiological assessment of osteoarthri-tis. Ann Rheum Dis 1957 ; 16 : 494-501.
3) Iidaka T, Muraki S, Akune T, et al. Prevalence of radiographic hip osteoarthritis and its association with hip pain in Japanese men and women : the ROAD study. Osteoarthritis Cartilage 2016 ; 24 : 117-23.
pubmed
4) Jingushi S, Ohfuji S, Sofue M, et al. Osteoarthritis hip joints in Japan : involvement of acetabular dysplasia. J Orthop Sci 2011 ; 16 : 156-64.
pubmed
5) 林靖人, 村瀬鎮雄, 勝又壮一, ほか. 股関節症の疫学. Hip Joint 2001 ; 27 : 194-7.

残りの26件を表示する

6) Offierski CM, MacNab I. Hip-spine syndrome. Spine 1983 ; 8 : 316-21.
pubmed
7) Ohtori S, Orita S, Yamashita M, et al. Existence of a neuropath-ic pain component in patients with osteoarthritis of the knee. Yonsei Med J 2012 ; 53 : 801-5.
8) Maeda K, Sonohata M, Kitajima M, et al. Risk factors of neuro-pathic pain after total hip arthroplasty. Hip Pelvis 2018 ; 30 : 226-32.
9) Shigemura T, Ohtori S, Kishida S, et al. "Neuropathic pain in patients with osteoarthritis of hip joint." Eur Orhtop Traumatol 2011 ; 2 : 73-7.
10) Eriksen EF, Ringe JD. Bone marrow lesions : a universal bone response to injury? Rheumatol Int 2012 ; 32 : 575-84.
pubmed
11) Geith T, Muller PE, Reiser M, et al. Is bone marrow edema syn-drome a precursor of hip or knee osteonecrosis? Results of 49 patients and review of the literature. Diagn Interv Radiol 2020 ; 26 : 355-62.
pubmed
12) Shabestar M, Vik J, Reseland JE, et al. Bone marrow lesions in hip osteoarthritis are characterized by increased bone turnover and enhanced angiogenesis. Osteoarthritis Cartilage 2016 ; 24 : 1745-52.
13) Felson DT, Chaisson CE, Hill CL, et al. The association of bone marrow lesions with pain in knee osteoarthritis. Ann Intern Med 2001 ; 134 : 541-9.
pubmed
14) Sowers MF, Hayes C, Jamadar D, et al. Magnetic resonance-de-tected subchondral bone marrow and cartilage defect charac-teristics associated with pain and X-ray-defined knee osteoar-thritis. Osteoarthritis Cartilage 2003 ; 11 : 387-93.
15) Sofat N, Kuttapitiya A. Future directions for the management of pain in osteoarthritis. Int J Clin Rheumtol 2014 ; 9 : 197-276.
pubmed
16) Roemer FW, Kassim Javaid M, Guermazi A, et al. Anatomical distribution of synovitis in knee osteoarthritis and its associa-tion with joint effusion assessed on non-enhanced and con-trast-enhanced MRI. Osteoarthritis Cartilage 2010 ; 18 : 1269-74.
17) Baker K, Grainger A, Niu J, et al. Relation of synovitis to knee pain using contrast-enhanced MRIs. Ann Rheum Dis 2010 ; 69 : 1779-83.
pubmed
18) Ghilardi JR, Freeman KT, Jimenez-Andrade JM, et al. Neuro-plasticity of sensory and sympathetic nerve fibers in a mouse model of a painful arthritic joint. Arthritis Rheum 2012 ; 64 : 2223-32.
19) Jimenez-Andrade JM, Mantyh PW. Sensory and sympathetic nerve fibers undergo sprouting and neuroma formation in the painful arthritic joint of geriatric mice. Arthritis Res Ther 2012 ; 14 : R101.
pubmed
20) Morgan M, Thai J, Nazemian V, et al. Changes to the activity and sensitivity of nerves innervating subchondral bone contrib-ute to pain in late-stage osteoarthritis. Pain 2022 ; 163 : 390-402.
21) Mayer TG, Neblett R, Cohen H, et al. The development and psy-chometric validation of the central sensitization inventory. Pain Pract 2012 ; 12 : 276-85.
22) Tanaka K, Nishigami T, Mibu A, et al. Validation of the apanese version of the Central Sensitization Inventory in patients with musculoskeletal disorders. PLoS One 2017 ; 12 : e0188719.
23) Nishigami T, Tanaka K, Mibu A, et al. Development and psy-chometric properties of short form of central sensitization inventory in participants with musculoskeletal pain : A cross-sectional study. PLoS One 2018 ; 13 : e0200152.
24) Nickel BT, Klement MR, Byrd WA, et al. The James A. Rand young investigator's award : Battling the opioid epidemic with prospective pain threshold measurement. J Arthroplasty 2018 ; 33 : S3-7.
25) Curatolo M, Petersen-Felix S, Arendt-Nielsen L. Assessment of regional analgesia in clinical practice and research. Br Med Bull 2005 ; 71 : 61-76.
pubmed
26) Martini C, van Velzen M, Drewes A, et al. A randomized con-trolled trial on the effect of tapentadol and morphine on condi-tioned pain modulation in healthy volunteers. PLoS One 2015 ; 10 : e0128997.
27) Kosek E, Ordeberg G. Lack of pressure pain modulation by het-erotopic noxious conditioning stimulation in patients with pain-ful osteoarthritis before, but not following, surgical pain relief. Pain 2000 ; 88 : 69-78.
28) Izumi M, Petersen KK, Laursen MB, et al. Facilitated temporal summation of pain correlates with clinical pain intensity after hip arthroplasty. Pain 2017 ; 158 : 323-32.
pubmed
29) Vaegter HB, Handberg G, Graven-Nielsen T. Similarities between exercise-induced hypoalgesia and conditioned pain modulation in humans. Pain 2014 ; 155 : 158-67.
pubmed
30) Australian Orthopaedic Association National Joint Replacement Registry 2021. https://aoanjrr.sahmri.com/annual-reports-2021
31) Kaya M, Fujii M, Iwamoto Y, et al. Extra-articular debridement of hip joint for management of anterior hip pain. Arthrosc Tech 2018 ; 7 : e651-5.
pubmed

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