アブストラクト
| Title | 体外衝撃波療法を併用した運動器リハビリテーション |
|---|---|
| Subtitle | 特集 / 運動器の新しい治療法とリハビリテーション診療 |
| Authors | 見目智紀* |
| Authors (kana) | けんもくとものり |
| Organization | *北里大学病院リハビリテーション科, 科長 |
| Journal | MB Medical Rehabilitation |
| Volume | |
| Number | 280 |
| Page | 36-44 |
| Year/Month | 2022 / 10 |
| Article | 報告 |
| Publisher | 全日本病院出版会 |
| Abstract | 「Abstract」体外衝撃波は非連続的な圧力波であり, 間欠的に照射することで治療効果を得る治療法である. 近年, 痙縮や関節拘縮に対して当該筋肉に衝撃波(特に拡散型圧力波)を照射することで改善が得られることが報告されている. そのメカニズムの1つとして神経筋接合部の部分的な破壊や組織間の滑走性の改善が明らかにされている. これらの作用に加え自由神経終末の破壊や血流上昇などの効果もあいまって筋筋膜性疼痛や腰痛に対しても有効性が報告されている. そして, アスリートの筋損傷においても再発が少なく修復が早期に得られることが報告されている. 安全性が高く消炎鎮痛や組織修復を得ることが可能な物理療法である体外衝撃波は, リハビリテーション分野において今後の発展性が期待できる有益な治療法の1つである. 本稿ではこの体外衝撃波療法の基礎的な解説とリハビリテーションに有益な臨床報告について紹介する. |
| Practice | 医療技術 |
| Keywords | 集束型衝撃波(focused shock wave), 拡散型圧力波(radial pressure wave), 痙縮(spasticity), 関節拘縮(joint contracture), 消炎鎮痛(anti-inflammatory analgesia) |
- 全文ダウンロード: 従量制、基本料金制の方共に968円(税込) です。
参考文献
- 1) Chaussy C, et al : Extracorporeally induced dest-ruction of kidney stones by shock waves. Lan-cet, 2 : 1265-1268, 1980.
- 2) Haupt G, et al : Influence of shock waves on frac-ture healing. Urology, 39 : 529-532, 1992.
- 3) Shrivastava SK, Kailash : Shock wave treatment in medicine. J Biosci, 30(2) : 269-275, 2005.
- 4) 横山正夫 : 現況概観. ESWLハンドブック, 横山正夫(編), pp.2-4, 中外医学社, 1991.
- 5) Kudva A, et al : Intrathecal baclofen, selective dorsal rhizotomy, and extracorporeal shockwave therapy for the treatment of spasticity in cere-bral palsy : a systematic review. Neurosurg Rev, 44(6) : 3209-3228, 2021.
残りの38件を表示する
- 6) Huang PP, et al : Effect of radial extracorporeal shock wave combined with ultrashort wave dia-thermy on fibrosis and contracture of muscle. Am J Phys Med Rehabil, 100(7) : 643-650, 2021.
- 7) Schmitz C, et al : Efficacy and safety of extracor-poreal shock wave therapy for orthopedic condi-tions : a systematic review on studies listed in the PEDro database. Br Med Bull, 116 : 115-138, 2015.
- 8) Auersperg V, et al : Extracorporeal shock wave therapy : an update. EFORT Open Rev, 5 : 584-592, 2020.
- 9) Perez C, et al : Acoustic field characterization of the Duolith : Measurements and modeling of a clinical shock wave therapy device. J Acoust Soc Am, 134(2) : 1663-1674, 2013.
- 10) Csaszar NBM, et al : Radial shock wave devices generate cavitation. PLoS One, 10(10) : e0140541, 2015.
- 11) Liu Y, et al : Quantitative assessments of mechan-ical response upon radial extracorporeal shock wave therapy. Advanced Sci, 5(3) : 1700797, 2017.
- 12) Cleveland RO, et al : Acoustic field of a ballistic shock wave therapy device. Ultrasound Med Bio, 33(8) : 1327-1335, 2007.
- 13) Rompe JD, et al : Dose-related effects of shock waves on rabbit tendo Achillis. A sonographic and histological study. J Bone Joint Surg Br, 80(3) : 546-552, 1998.
- 14) Kenmoku T, et al : Influence of different energy patterns on efficacy of radial shock wave ther-apy. J Orthop Sci, 26(4) : 698-703, 2021.
- 15) International Society for Medical Shockwave Treatment. Shockwave Indications. Available from [https://www.shockwavetherapy.org/about-eswt/indications/]
- 16) Oztemur Z, et al : The long-term effects of extracorporeal shock waves on the epiphysis of the adolescent tar. J Orthop Sci, 18 : 159-164, 2013.
- 17) Lance JW : Feldman RG, et al, eds, In : Spastic-ity : Disordered Motor Control, pp.485-494, Year Book Medical Publishers, 1980.
- 18) Young RR : Spasticity : a review. Neurology, 44(11 Supple 9) : S12-S20, 1994.
- 19) Manganotti P, Amelio E : Long-term effect of shock wave therapy on upper limb hypertonia in patients affected by stroke. Stroke, 36(9) : 1967-1971, 2005.
- 20) Dymarek R, et al : Shockwaves as a treatment modality for spasticity reduction and recovery improvement in post-stroke adults-current evidence and qualitative systematic review. Clin Interv Aging, 15 : 9-28, 2020.
- 21) Bae H, et al : The effects of extracorporeal shock wave therapy on spasticity in chronic stroke patients. J Korean Acad Rehabil Med, 34 : 663-669, 2010.
- 22) Kenmoku T, et al : Degeneration and recovery of the neuromuscular junction after application of extracorporeal shock wave therapy. J Orthop Res, 30 : 1660-1665, 2012.
- 23) Kenmoku T, et al : Extracorporeal shock wave treatment can selectively destroy endplates in neuromuscular junctions. Muscle Nerve, 57 : 466-472, 2018.
- 24) Fernandez-Cuadros ME, et al : Radial shock waves modify post-synaptic neuromuscular transmission in the medial spastic gastrocne-mius muscle : case report, neurophysiological evaluation, and review. SN Compr Clin Med, 2(10) : 1914-1921, 2020.
- 25) Wu YT, et al : Comparison of the effect of focused and radial extracorporeal shock waves on spastic equinus in patients with stroke : a randomized controlled trial. Eur J Phys Rehabil Med, 54(4) : 518-525, 2018.
- 26) Leng Y, et al : The effects of extracorporeal shock wave therapy on spastic muscle of the wrist joint in stroke survivors : evidence from neuromechanical analysis. Front Neurosci, 14 : 580762, 2021.
- 27) Yoon SH, et al : Effective site for the application of extracorporeal shock-wave therapy on spas-ticity in chronic stroke : Muscle belly or myoten-dinous junction. Ann Rehabil Med, 41(4) : 547-555, 2017.
- 28) Vidal X, et al : Efficacy of radial extracorporeal shock wave therapy compared with botulinum toxin type A injection in treatment of lower extremity spasticity in subjects with cerebral palsy : A randomized, controlled, cross-over study. J Rehabil Med, 52(6) : jrm00076, 2020.
- 29) Santamato A, et al : SBOTE study : extracorpo-real shock wave therapy versus electrical stimu-lation after botulinum toxin type a injection for post-stroke spasticity-a prospective random-ized trial. Ultrasound Med Biol, 39(2) : 283-291, 2013.
- 30) Megna M, et al : Pain and muscles properties modifications after botulinum toxin type A(BTX-A) and radial extracorporeal shock wave(rESWT) combined treatment. Endocr Metab Immune Disord Drug Targets, 19(8) : 1127-1133, 2019.
- 31) Zhou Y, Yang K : Prevention of arthrofibrosis during knee repair by extracorporeal shock wave therapy : preliminary study in rabbits. Injury, 50(3) : 633-638, 2019.
- 32) Wang F, et al : Radial extracorporeal shock wave reduces myogenic contracture and muscle atro-phy via inhibiting NF-κB/HIF-1α signaling pathway in rabbit. Connect Tissue Res, 63(3) : 298-307, 2022.
- 33) El Naggar TEDM, et al : Effectiveness of radial extracorporeal shock-wave therapy versus ultrasound-guided low-dose intra-articular ste-roid injection in improving shoulder pain, func-tion, and range of motion in diabetic patients with shoulder adhesive capsulitis. J Shoulder Elbow Surg, 29(7) : 1300-1309, 2020.
- 34) 岩堀裕介ほか : 肘関節拘縮に対する拡散型圧力波療法を併用した保存療法の治療成績. 日肘関節会誌, 28(2) : 176-179, 2021.
- 35) 小林佑介ほか : 拡散型圧力波の関節可動域改善効果に関する研究(第1報) 超音波エコーを用いた評価. 日臨スポーツ医誌, 30(1) : 191-197, 2022.
- 36) Lakie M, Campbell KS : Muscle thixotropy-where are we now? J Appl Physiol, 126(6) : 1790-1799, 2019.
- 37) Wang CJ, et al : Shock wave therapy induces neovascularization at the tendon-bone junction. A study in rabbits. J Orthop Res, 21 : 984-989, 2003.
- 38) Han SH, et al : J Leonard Goldner Award 2008. Effect of extracorporeal shock wave therapy on cultured tenocytes. Foot Ankle Int, 30 : 93-98, 2009.
- 39) Ohtori S, et al : Shock wave application to rat skin induced degeneration and reinnervation of sensory nerve fiber. Neurosci Letter, 315 : 57-60, 2001.
- 40) Fukumoto Y, et al : Extracorporeal cardiac shock wave therapy ameliorates myocardial ischemia in patients with severe coronary artery disease. Coron Artery Dis, 17(1) : 63-70, 2006.
- 41) Walewicz K, et al : The effectiveness of radial extracorporeal shock wave therapy In patients with chronic low back pain : a prospective, ran-domized, single-blinded pilot study. Clin Interv Aging, 14 : 1859-1869, 2019.
- 42) Suputtitada A, et al : Effects of repeated injec-tion of 1% lidocaine vs. radial extracorporeal shock wave therapy for treating myofascial trig-ger points : a randomized controlled trial. Medic-ina(Kaunas), 58(4) : 479, 2022.
- 43) Morgan JPM, et al : Return to play after treating acute muscle injuries in elite football players with radial extracorporeal shock wave therapy. J Orthop Surg Res, 16(1) : 708, 2021.
