PT・OTビジュアルテキスト エビデンスから身につける物理療法 第2版

出版社: 羊土社
著者:
発行日: 2023-03-01
分野: 医療技術  >  リハビリ技術
ISBN: 9784758102629
電子書籍版: 2023-03-01 (第2版第1刷)
書籍・雑誌
≪全国送料無料でお届け≫
取寄せ目安:4~8営業日

6,050 円(税込)

電子書籍
章別単位での購入はできません
ブラウザ、アプリ閲覧

6,050 円(税込)

商品紹介

痛みのしくみやROM制限,運動療法との関連,適応や効果,禁忌と注意点が根拠からわかる!国試対策のポイントを明示している他,治療をイメージできる動画39本付き!第2版では,痛みの評価,衝撃波療法を追加!

目次

  • 第I章 総論
    1 物理療法とは
     1 日本の物理療法の定義
     2 米国理学療法士協会(APTA)の定義
     3 世界理学療法連盟(World Physiotherapy)の定義
     4 物理療法の歴史
     5 物理療法の実施者
     6 物理療法の位置づけと特異的問題点
     7 日本物理療法学会
    2 痛みの生理学と病理学
     1 痛みの定義と分類
     2 痛みの受容器と伝導路
     3 痛みが抑制(調整)されるメカニズム
     4 感作
     5 CRPS(複合性局所疼痛症候群)
    3 リハビリテーション現場における痛みの評価
     1 痛みの強さ測定と物理療法の効果判定
     2 痛みの性質と聴取
     3 痛みの性質を評価して神経障害性疼痛を見分ける
     4 痛みの部位
     5 定量的感覚検査(QST)
     6 痛みの情動・認知の評価
     7 身体機能・日常生活活動(ADL)評価
     8 生活の質(quality of life:QOL)の評価
    4 関節可動域制限
     1 関節可動域制限とは
     2 関節の構造
     3 コラーゲン線維の特徴
     4 関節可動域制限をもたらす関節の不動
     5 関節可動域制限の病態
     6 関節可動域制限の評価
     7 運動療法と物理療法の組合わせ
    5 温熱療法に必要な物理学と生理学
     A)温熱療法に必要な物理学
      1 熱と温度
      2 熱の伝達様式
      3 電磁波とは
      4 電磁両立性(EMC)
     B)温熱療法に必要な生理学
      1 温熱刺激に対する生理学的反応の概要
      2 温熱刺激に対する組織レベルのさまざまな反応
      3 温熱刺激に対する全身の反応
      4 温熱が軟部組織の伸展性に与える影響
      5 温熱が神経系に与える影響

    第II章 治療法各論
    1 ホットパック
     1 ホットパックとは
     2 ホットパックの適応と効果
     3 ホットパックの禁忌と注意事項
     4 ホットパックの実際
     ■ 実験・実習
    2 パラフィン浴
     1 パラフィン浴とは
     2 パラフィン浴の適応と効果
     3 パラフィン浴の禁忌と注意事項
     4 パラフィン浴の実際
     ■ 実験・実習
    3 水治療法
     1 水治療法とは
     2 水治療法の適応と効果
     3 水治療法の禁忌と注意事項
     4 水治療法の実際
     ■ 実験・実習
    4 超短波療法
     1 超短波療法とは
     2 電磁波とは
     3 超短波療法の適応と効果
     4 超短波療法の禁忌と注意事項
     5 超短波療法の実際
     ■ 実験・実習
    5 極超短波療法
     1 極超短波療法とは
     2 極超短波療法のアプリケーター
     3 極超短波療法の適応と効果
     4 極超短波療法の禁忌と注意事項
     5 極超短波療法の実際
     ■ 実験・実習
    6 超音波療法
     1 超音波療法の歴史
     2 超音波
     3 超音波療法の適応と効果
     4 超音波療法の禁忌と注意事項
     5 超音波療法の実際
     ■ 実験・実習
    7 寒冷療法
     1 寒冷療法とは
     2 寒冷療法の適応と効果
     3 寒冷療法の禁忌と注意事項
     4 寒冷療法の実際
     ■ 実験・実習
    8 光線療法
     A)光線の物理学
      1 光とは何か
      2 光の波動性と粒子性
      3 波長とエネルギーの関係
      4 光化学作用
      5 光線療法による生理学的作用
      6 強度の変化
     B)レーザー療法
      1 レーザー光の物理学的性質
      2 レーザー光の発生
      3 人体へのレーザー照射を考えるうえでの基本的知識
      4 レーザー療法の作用と適応
      5 レーザー療法の禁忌および注意を要する病態
      6 レーザー療法の実際
      ■ 模擬実習
     C)赤外線療法
      1 赤外線の基本的知識
      2 赤外線温熱治療器
      3 スポット型近赤外線治療器
      4 スポット型近赤外線療法の作用と適応・治療対象
      5 スポット型近赤外線療法の禁忌および注意を要する病態
      6 スポット型近赤外線療法の実際
      ■ 模擬症例による実習
     D)紫外線療法
      1 紫外線の基本的知識
      2 紫外線治療器
      3 紫外線療法の適応・禁忌,作用
      4 紫外線療法の展望と課題
    9 電気を用いた治療
     A)電気を用いた治療の基本
      1 電気とは
      2 電気刺激によって神経が興奮するメカニズム
      3 電流のタイプ
      4 強さ─時間曲線(SD曲線)
      5 刺激パラメータ
      6 安全に実施するために〜禁忌・注意点・一般的手順
     B)TENS【徳田光紀】
      1 経皮的電気刺激(TENS)とは
      2 TENSの適応と効果
      3 TENSの禁忌と注意事項
      4 TENSの実際
      ■ 実験・実習
     C)NMES
      1 神経筋電気刺激(NMES)とは
      2 筋力増強のためのNMES
      ■ 実験・実習
      3 中枢性運動麻痺に対するNMES
      ■ 実験・実習
      4 痙縮抑制のためのNMES
      ■ 実験・実習
     D)イオントフォレーシス
      1 イオントフォレーシスとは
      2 イオントフォレーシスのメカニズム
      3 イオントフォレーシスの適応と効果
      4 イオントフォレーシスの禁忌と注意事項
      5 イオントフォレーシスの実際
      ■ 実験・実習
     E)バイオフィードバック療法
      1 バイオフィードバック療法とは
      2 筋電図バイオフィードバック療法の適応と効果
      3 筋電図バイオフィードバック療法の禁忌と注意事項
      4 筋電図バイオフィードバック療法の実際
      ■ 実験・実習
     F)創傷治癒のための電気刺激療法
      1 治療対象となる創傷
      2 褥瘡治癒のための電気刺激療法の適応と効果
      3 創傷に対する電気刺激療法の禁忌と注意事項
      4 創傷に対する電気刺激療法の実際
      ■ 実験・実習
    10 圧迫療法
     1 圧迫療法とは
     2 圧迫療法の適応と効果
     3 圧迫療法の禁忌と注意事項
     4 圧迫療法の実際
     ■ 実験・実習
    11 牽引療法
     1 牽引療法とは
     2 牽引療法の適応と効果
     3 牽引療法の禁忌と注意事項
     4 牽引療法の実際
     ■ 実験・実習
    12 振動刺激療法
     1 振動刺激療法とは
     2 振動刺激療法の適応と効果
     3 振動刺激の禁忌と注意事項
     4 振動刺激療法の実際
     ■ 実験・実習
    13 体外衝撃波療法
     1 体外衝撃波療法とは
     2 体外衝撃波療法の適応と効果
     3 体外衝撃波療法の禁忌事項と副作用
     4 体外衝撃波療法の実際
     ■ 実験・実習

この書籍の参考文献

参考文献のリンクは、リンク先の都合等により正しく表示されない場合がありますので、あらかじめご了承下さい。

本参考文献は電子書籍掲載内容を元にしております。

第I章 総論

P.23 掲載の参考文献
1) 「Guide to Physical Therapist Practice Revised 2nd Edition」 (American Physical Therapy Association/ed), American Physical Therapy Association, 2003
2) 「Guide to Physical Therapist Practice 3.0」 (American Physical Therapy Association/ed), American Physical Therapy Association, 2014
3) International Society for Electrophysical Agents in Physical Therapy (ISEAPT) (https://world.physio/subgroups/electrophysical), World Physiotherapy
4) 「Michlovitz's Modalities for Therapeutic Intervention 6th Edition」 (Bellew JW, et al/eds), F.A. Davis, 2016
5) 「Krusen's Handbook of Physical Medicine and Rehabilitation 4th Edition」 (Kottke FJ & Lehmann JF/eds), Saunders, 1990
6) APTA History (https://www.apta.org/apta-history), American Physical Therapy Association
7) APTA Integrity in Practice Initiative, Federation of State Boards of Physical Therapy Fall 2015 Forum, American Physical Therapy Association, 2015
8) 日本物理療法学会 (https://www.jseapt.com/)
P.44 掲載の参考文献
1) 田口敏彦 : 痛みの生物学的意義. 「疼痛医学」 (田口敏彦, 他/監, 野口光一, 他/編), 医学書院, 2021
2) 「慢性疼痛治療ガイドライン」 (「慢性の痛み診療・教育の基盤となるシステム構築に関する研究」研究斑/監, 慢性疼痛治療ガイドライン作成ワーキンググループ/編) 真興交易医書出版部, pp16-18, 2018
3) IASP Announces Revised Definition of Pain (https://www.iasp-pain.org/publications/iasp-news/iasp-announces-revised-definition-of-pain/?Item-Number=10475), 国際疼痛学会 (IASP), 2020年7月16日
4) 「ペインリハビリテーション入門」 (沖田実, 松原貴子/著), 三輪書店, 2019
5) 「ペインリハビリテーション」 (松原貴子, 他/編著), p53, 三輪書店, 2011
6) 「メカニズムから読み解く 痛みの臨床テキスト」 (小川節郎/編), pp56-60, 南江堂, 2015
7) 「ペインリハビリテーション」 (松原貴子, 他/編著), p24, 三輪書店, 2011
8) 「ペインリハビリテーション」 (松原貴子, 他/編著), p52, 三輪書店, 2011
9) 「メカニズムから読み解く 痛みの臨床テキスト」 (小川節郎/編), pp62-63, 南江堂, 2015
10) Bushnell MC, et al : Cognitive and emotional control of pain and its disruption in chronic pain. Nat Rev Neurosci, 14 : 502-511, 2013
11) Maihofner C, et al : Complex regional pain syndromes : new pathophysiological concepts and therapies. Eur J Neurol, 17 : 649-660, 2010
12) 「ペインリハビリテーション」 (松原貴子, 他/編著), p107, 三輪書店, 2011
13) 「Pain-Related Fear : Exposure-Based Treatment for Chronic Pain」 (Vlaeyen JW, et al/eds), IASP press, 2015
14) Simons LE : Fear of pain in children and adolescents with neuropathic pain and complex regional pain syndrome. Pain, 157 Suppl 1 : S90-S97, 2016
15) Corradi-Dell'Acqua C, et al : Cross-modal representations of first-hand and vicarious pain, disgust and fairness in insular and cingulate cortex. Nat Commun, 7 : 10904, 2016
16) Seth AK : Interoceptive inference, emotion, and the embodied self. Trends Cogn Sci, 17 : 565-573, 2013
17) Coghill RC, et al : Neural correlates of interindividual differences in the subjective experience of pain. Proc Natl Acad Sci U S A, 100 : 8538-8542, 2003
18) Eisenberger NI : The pain of social disconnection : examining the shared neural underpinnings of physical and social pain. Nat Rev Neurosci, 13 : 421-434, 2012
19) Tracey I : Getting the pain you expect : mechanisms of placebo, nocebo and reappraisal effects in humans. Nat Med, 16 : 1277-1283, 2010
20) Jensen KB, et al : Cognitive Behavioral Therapy increases pain-evoked activation of the prefrontal cortex in patients with fibromyalgia. Pain, 153 : 1495-1503, 2012
21) 川崎康彦, 河野達郎 : 脊髄における下行性抑制系の役割. BRAIN MEDICAL, 21 : 251-256, 2009
22) 「Mechanisms and Management of Pain for the Physical Therapist Second Edition」 (Sluka KA/ed), IASP Press, 2016
23) 御領憲治, 古江秀昌 : 脳幹における痛みの抑制と慢性疼痛発現の機構. 医学のあゆみ, 260 : 144-148, 2017
24) Ito A, et al : Mechanisms for ovariectomy-induced hyperalgesia and its relief by calcitonin : participation of 5-HT1A-like receptor on C-afferent terminals in substantia gelatinosa of the rat spinal cord. J Neurosci, 20 : 6302-6308, 2000
25) Abe K, et al : Responses to 5-HT in morphologically identified neurons in the rat substantia gelatinosa in vitro. Neuroscience, 159 : 316-324, 2009
26) Colloca L, et al : Placebo analgesia : psychological and neurobiological mechanisms. Pain, 154 : 511-514, 2013
27) 「Wall & Melzack's Textbook of Pain 6th Edition」(McMahon SB, et al/eds), ELSEVIER, 2013
28) Sekino Y, et al : Sensory hyperinnervation and increase in NGF, TRPV1 and P2X3 expression in the epidermis following cast immobilization in rats. Eur J Pain, 18 : 639-648, 2014
29) 「複合性局所疼痛症候群 (CRPS) をもっと知ろう 病態・診断・治療から後遺障害診断まで」 (堀内行雄/編), 全日本病院出版会, 2015
30) GalveVilla M, et al : Complex regional pain syndrome. Man Ther, 26 : 223-230, 2016
31) Sumitani M, et al : Development of comprehensive diagnostic criteria for complex regional pain syndrome in the Japanese population. Pain, 150 : 243-249, 2010
32) Bean DJ, et al : Extent of recovery in the first 12 months of complex regional pain syndrome type-1 : A prospective study. Eur J Pain, 20 : 884-894, 2016
33) Birklein F & Schlereth T : Complex regional pain syndrome-significant progress in understanding. Pain, 156 Suppl 1 : S94-S103, 2015
34) Sabsovich I, et al : TNF signaling contributes to the development of nociceptive sensitization in a tibia fracture model of complex regional pain syndrome type I. Pain, 137 : 507-519, 2008
35) Guo TZ, et al : Immobilization contributes to exaggerated neuropeptide signaling, inflammatory changes, and nociceptive sensitization after fracture in rats. J Pain, 15 : 1033-1045, 2014
36) Birklein F, et al : Activation of cutaneous immune responses in complex regional pain syndrome. J Pain, 15 : 485-495, 2014
37) Parkitny L, et al : Inflammation in complex regional pain syndrome : a systematic review and meta-analysis. Neurology, 80 : 106-117, 2013
38) Del Valle L, et al : Spinal cord histopathological alterations in a patient with longstanding complex regional pain syndrome. Brain Behav Immun, 23 : 85-91, 2009
39) Di Pietro F, et al : Primary somatosensory cortex function in complex regional pain syndrome : a systematic review and meta-analysis. J Pain, 14 : 1001-1018, 2013
40) Hozumi J, et al : Oral Local Anesthesia Successfully Ameliorated Neuropathic Pain in an Upper Limb Suggesting Pain Alleviation through Neural Plasticity within the Central Nervous System : A Case Report. Anesthesiol Res Pract, 2011 : 984281, 2011
41) Terkelsen AJ, et al : Bilateral hypersensitivity to capsaicin, thermal, and mechanical stimuli in unilateral complex regional pain syndrome. Anesthesiology, 120 : 1225-1236, 2014
42) Baliki MN, et al : Functional reorganization of the default mode network across chronic pain conditions. PLoS One, 9 : e106133, 2014
43) Wei T, et al : Acute versus chronic phase mechanisms in a rat model of CRPS. J Neuroinflammation, 13 : 14, 2016
44) Bruehl S, et al : Complex regional pain syndrome : evidence for warm and cold subtypes in a large prospective clinical sample. Pain, 157 : 1674-1681, 2016
45) Varenna M, et al : Predictors of Responsiveness to Bisphosphonate Treatment in Patients with Complex Regional Pain Syndrome Type I : A Retrospective Chart Analysis. Pain Med, 2016
P.63 掲載の参考文献
1) Dworkin RH, et al : Research design considerations for confirmatory chronic pain clinical trials : IMMPACT recommendations. Pain, 149 : 177-193, 2010
2) Williamson A & Hoggart B : Pain : a review of three commonly used pain rating scales. J Clin Nurs, 14 : 798-804, 2005
3) Salaffi F, et al : Minimal clinically important changes in chronic musculoskeletal pain intensity measured on a numerical rating scale. Eur J Pain, 8 : 283-291, 2004
4) 「Wall & Melzack's Textbook of Pain 6th edition」 (McMahon SB, et al/eds), Saunders, 2013
5) Arimura T, et al : Pain questionnaire development focusing on cross-cultural equivalence to the original questionnaire : the Japanese version of the Short-Form McGill Pain Questionnaire. Pain Med, 13 : 541-551, 2012
6) 圓尾知之, 他 : 痛みの評価尺度・日本語版 Short-Form McGill Pain Questionnaire 2 (SF-MPQ-2) の作成とその信頼性と妥当性の検討. PAIN RESEARCH, 28 : 43-53, 2013
7) Matsubayashi Y, et al : Validity and reliability of the Japanese version of the painDETECT questionnaire : a multicenter observational study. PLoS One, 8 : e68013, 2013
8) Hasvik E, et al : Call for Caution in Using the Pain DETECT Questionnaire for Patient Stratifi cation Without Additional Clinical Assessments : Comment on the Article by Soni et al. Arthritis Rheumatol, 71 : 1201-1202, 2019
9) Soni A, et al : Central Sensitization in Knee Osteoarthritis : Relating Presurgical Brainstem Neuroimaging and PainDETECT-Based Patient Stratification to Arthroplasty Outcome. Arthritis Rheumatol, 71 : 550-560, 2019
10) Kurien T, et al : Preoperative Neuropathic Pain-like Symptoms and Central Pain Mechanisms in Knee Osteoarthritis Predicts Poor Outcome 6 Months After Total Knee Replacement Surgery. J Pain, 19 : 1329-1341, 2018
11) Matsubayashi Y, et al : Psychometric Validation of the Japanese Version of the Neuropathic Pain Symptom Inventory. PLoS One, 10 : e0143350, 2015
12) 西上智彦, 壬生彰 : 痛みに対する評価とリハビリテーション方略-臨床でのスタンダードを目指して-. 保健医療学雑誌, 5 : 45-51, 2014
13) 「PCS-The Pain Catastrophizing Scale User Manual」 (Sullivan MJ/ed), 2009 (https://aspecthealth.ca/wp-content/uploads/2017/03/PCSManual_English1.pdf)
14) Bot AGJ, et al : Creation of the Abbreviated Measures of the Pain Catastrophizing Scale and the Short Health Anxiety Inventory : The PCS-4 and SHAI-5. Journal of Musculoskeletal Pain, 22 : 145-151, 2014
15) McWilliams LA, et al : Development and evaluation of short forms of the Pain Catastrophizing Scale and the Pain Self-efficacy Questionnaire. Eur J Pain, 19 : 1342-1349, 2015
16) Vlaeyen JW, et al : The role of fear of movement/ (re) injury in pain disability. J Occup Rehabil, 5 : 235-252, 1995
17) Woby SR, et al : Psychometric properties of the TSK-11 : a shortened version of the Tampa Scale for Kinesiophobia. Pain, 117 : 137-144, 2005
18) 「ペインリハビリテーション入門」 (沖田実, 松原貴子/著), 三輪書店, 2019
19) 有村達之, 他 : 疼痛生活障害評価尺度の開発. 行動療法研究, 23 : 7-15, 1997
20) 高橋直人, 他 : 痛みの客観的評価とQOL. J Rehabil Med, 53 : 596-603, 2016
21) 西村周三 : 日本語版EuroQolの開発. 医療と社会, 8 : 109-123, 1998
P.74 掲載の参考文献
1) 「関節内運動学4D-CT で解き明かす」 (片岡寿雄/著, 宇都宮初夫/監), 南江堂, 2014
2) 第3章 生理. 骨格筋の構造. 「学生版 ネッター医学図譜 筋骨格系 I」 (Netter FH/著, 杉岡洋一/監), p150, 丸善出版, 2005
3) 第3章 生理. 筋肉の収縮と弛緩. 「学生版 ネッター医学図譜 筋骨格系 I」 (Netter FH/著, 杉岡洋一/監), p153, 丸善出版, 2005
4) Trudel G, et al : Bone growth increases the knee flexion contracture angle : A study using rats. Arch Phys Med Rehabil, 82 : 583-588, 2001
5) 岡本眞須美, 他 : 不動期間の延長に伴うラット足関節可動域の制限因子の変化 : 軟部組織 (皮膚・筋) と関節構成体由来の制限因子について. 理学療法学, 31 : 36-42, 2004
6) Brown DA : 第1部 運動学の必須トピックス. 第3章 筋 : 身体における究極の力源. 「筋骨格系のキネシオロジー」 (Neumann DA/著, 嶋田智明, 平田総一郎/監訳), p46, 医歯薬出版, 2005
7) Trudel G & Uhthoff HK : Contractures secondary to immobility : is the restriction articular or muscular? An experimental longitudinal study in the rat knee. Arch Phys Med Rehabil, 81 : 6-13, 2000
8) Neumann DA : 第1部 運動学の必須トピックス. 「筋骨格系のキネシオロジー」 (Neumann DA/著, 嶋田智明, 平田総一郎/監訳), p34, 医歯薬出版, 2005
9) Tillman LJ & Chasan N : PART I Basic Concepts and Techniques. 1 Properties of Dense Connective Tissue. Mechanical Properties of Collagen.「Management of Common Musculoskeletal Disorders : Physical Therapy Principles and Methods Fourth Edition」 (Hortling H & Kessler RH/eds), p10, Lippincott Williams & Wilkins, 2005
10) CHAPTER 4 Stretching for Impaired Mobility.「Therapeutic Exercise Foundations and Techniques 5th Edition」 (Kisner C & Colby LA/ed), p75, F.A. Davis, 2007
11) Woo SL, et al : Connective tissue response to immobility. Correlative study of biomechanical and biochemical measurements of normal and immobilized rabbit knees. Arthritis Rheum, 18 : 257-264, 1975
12) Baraliakos X, et al : Radiographic progression in patients with ankylosing spondylitis after 2 years of treatment with the tumour necrosis factor α antibody infliximab. Ann Rheum Dis, 64 : 1462-1466, 2005
13) 羽崎完 : 関節の構造と機能. 「運動療法学 障害別アプローチの理論と実際」 (市橋則明/編), p57, 文光堂, 2008
14) Halar EM : contracture and other deleterious effects of immobility.「Rehabilitation Medicine : Principles and Practice 2nd Edition」 (DeLisa JA & Gans BM/eds), pp681-699, Lippincott Williams & Wilkins, 1993
15) CHAPTER 10 Soft Tissue Injury, Repair, and Management. 「Therapeutic Exercise Foundations and Techniques 5th Edition」 (Kisner C & Colby LA/ed), p298, F.A. Davis, 2007
16) Image J (https://imagej.nih.gov/ij/)
17) 1章 基本理念と概念. 「運動器リハビリテーションの機能評価 I」 (Magee DJ/著, 陶山哲夫/監訳), p24, エルゼビア・ジャパン, 2006
18) Neumann DA : 第1部 運動学の必須トピックス. 「筋骨格系のキネシオロジー」 (Neumann DA/著, 嶋田智明, 平田総一郎/監訳), p9, 医歯薬出版, 2005
19) Lehmann JF, et al : Effect of therapeutic temperatures on tendon extensibility. Arch Phys Med Rehabil, 51 : 481-487, 1970
20) Lentell G, et al : The use of thermal agents to influence the effectiveness of a low-load prolonged stretch. J Orthop Sports Phys Ther, 16 : 200-207, 1992
P.90 掲載の参考文献
1) Rennie S : ELECTROPHYSICAL AGENTS-Contraindications And Precautions : An Evidence-Based Approach To Clinical Decision Making In Physical Therapy. Physiother Can, 62 : 1-80, 2010
2) 「Integrating Physical Agents in Rehabilitation 2nd Edition」 (Hecox B, et al/eds), Pearson, 2005
3) 体温調節. 「医療系のための物理 第2版」 (佐藤幸一, 藤城敏幸/著), p67, 東京教学社, 2017
4) 「電磁界と健康 改訂第18版」 (経済産業省商務情報政策局/編) (https://www.meti.go.jp/policy/safety_security/industrial_safety/sangyo/electric/detail/e_health/data/denjikai_2011.pdf), 電気安全環境研究所, 2012
5) 感覚系. 「オックスフォード 生理学 原書3版」 (Pocock G & Richards CD/著, 岡村栄之, 植村慶一/監訳), p125, 丸善, 2009
6) 心臓と循環. 「オックスフォード 生理学 原書3版」 (Pocock G & Richards CD/著, 岡村栄之, 植村慶一/監訳), p341, 丸善, 2009
7) Lehmann JF, et al : Effect of therapeutic temperatures on tendon extensibility. Arch Phys Med Rehabil, 51 : 481-487, 1970
8) Rasminsky M : The effects of temperature on conduction in demyelinated single nerve fibers. Arch Neurol, 28 : 287-292, 1973
9) 「Michlovitz's Modalities for Therapeutic Intervention 6th Edition」 (Bellew JW, et al/eds), F.A. Davis, 2016

第II章 治療法各論

P.99 掲載の参考文献
1) Rennie S : ELECTROPHYSICAL AGENTS-Contraindications And Precautions : An Evidence-Based Approach To Clinical Decision Making In Physical Therapy. Physiother Can, 62 : 1-80, 2010
2) Lehmann JF, et al : Temperature distributions in the human thigh, produced by infrared, hot pack and microwave applications. Arch Phys Med Rehabil, 47 : 291-299, 1966
3) French SD, et al : Superficial heat or cold for low back pain. Cochrane Database Syst Rev, 25 : CD004750, 2006
4) Shiota K : Neural tube defects and maternal hyperthermia in early pregnancy : epidemiology in a human embryo population. Am J Med Genet, 12 : 281-288, 1982
5) Kalter H & Warkany J : Medical progress. Congenital malformations : etiologic factors and their role in prevention (first of two parts). N Engl J Med, 308 : 424-431, 1983
6) Petrofsky JS & Laymon M : Heat transfer to deep tissue : the effect of body fat and heating modality. J Med Eng Technol, 33 : 337-348, 2009
7) Petrofsky J, et al : Dry heat, moist heat and body fat : are heating modalities really effective in people who are overweight? J Med Eng Technol, 33 : 361-369, 2009
P.103 掲載の参考文献
1) Rennie S : ELECTROPHYSICAL AGENTS-Contraindications And Precautions : An Evidence-Based Approach To Clinical Decision Making In Physical Therapy. Physiother Can, 62 : 1-80, 2010
2) Robinson V, et al : Thermotherapy for treating rheumatoid arthritis. Cochrane Database Syst Rev, 2 : CD002826, 2002
P.112 掲載の参考文献
1) 「EBM 物理療法 原著第4版」 (Cameron MH/著, 渡部一郎/訳), 医歯薬出版, 2015
2) 「物理療法マニュアル」 (嶋田智明, 他/著), 医歯薬出版, 1996
3) 「複合性局所疼痛症候群 (CRPS) をもっと知ろう」 (堀内行雄/編), 全日本病院出版会, pp69-74, 2015
4) Mooventhan A & Nivethitha L : Scientific evidence-based effects of hydrotherapy on various systems of the body. N Am J Med Sci, 6 : 199-209, 2014
5) Silva LE, et al : Hydrotherapy versus conventional land-based exercise for the management of patients with osteoarthritis of the knee : a randomized clinical trial. Phys Ther, 88 : 12-21, 2008
6) Arnold CM, et al : A Randomized Clinical Trial of Aquatic versus Land Exercise to Improve Balance, Function, and Quality of Life in Older Women with Osteoporosis. Physiother Can, 60 : 296-306, 2008
7) Pechter U, et al : Beneficial effects of water-based exercise in patients with chronic kidney disease. Int J Rehabil Res, 26 : 153-156, 2003
8) Castro-Sanchez AM, et al : Hydrotherapy for the treatment of pain in people with multiple sclerosis : a randomized controlled trial. Evid Based Complement Alternat Med, 2012 : 473963, 2012
9) Vivas J, et al : Aquatic therapy versus conventional land-based therapy for Parkinson's disease : an openlabel pilot study. Arch Phys Med Rehabil, 92 : 1202-1210, 2011
10) Kramer MS & McDonald SW : Aerobic exercise for women during pregnancy. Cochrane Database Syst Rev, CD000180, 2006
11) Lee DG, et al : Effects of underwater treadmill walking training on the peak torque of the knee in hemiplegic patients. J Phys Ther Sci, 27 : 2871-2873, 2015
P.121 掲載の参考文献
1) Karasel S, et al : The Effect of Short-Wave Diathermy and Exercise on Depressive Affect in Chronic Low Back Pain Patients. Med Arch, 75 : 216-220, 2021
2) Fukuda TY, et al : Pulsed shortwave treatment in women with knee osteoarthritis : a multicenter, randomized, placebo-controlled clinical trial. Phys Ther, 91 : 1009-1017, 2011
3) Draper DO, et al : Shortwave diathermy and prolonged stretching increase hamstring flexibility more than prolonged stretching alone. J Orthop Sports Phys Ther, 34 : 13-20, 2004
4) 「EBM 物理療法 原著第4版」 (Cameron MH/原著, 渡部一郎/訳), 医歯薬出版, 2015
5) No authors listed : ELECTROPHYSICAL AGENTS-Contraindications And Precautions : An Evidence-Based Approach To Clinical Decision Making In Physical Therapy. Physiother Can, 62 : 1-80, 2010
6) Zulfqar R, et al : Post-Operative Management of Metal Implanted Elbow Stiffness with Pulsed Short-Wave Diathermy (SWD) and Joint Mobilization. APMC, 15 : 189-194, 2021
7) Draper DO & Veazey E : Pulsed Shortwave Diathermy and Joint Mobilizations Restore a Twice Fractured Elbow with Metal Implants to Full Range of Motion. J Nov Physiother Rehabil, 1 : 20-26, 2017
8) Kloth LC & Zisken MC : Diathermy and pulsed radio frequency radiation.「Thermal agents in rehabilitation Third Edition」 (Michlovitz SL/ed), pp213-254, FA Davis, 1996
Kitchen SA & Partridge C : Review of Shortwave Diathermy Continuous and Pulsed Patters. Physiotherapy, 78 : 243-252, 1992
P.129 掲載の参考文献
1) 「シンプル理学療法学シリーズ 物理療法学テキスト 改訂第3版」 (細田多穂/監, 木村貞治, 他/編), pp241-242, 南江堂, 2021
2) 菅正明, 他 : 高周波療法. 日本温泉気候物理医学会雑誌, 30 : 29-33, 1966
3) Goats GC : Microwave diathermy. Br J Sports Med, 24 : 212-218, 1990
4) 吉田次男 : パルスマイクロ波と連続マイクロ波の加温効果 : パイロットスタデイ. 日本温泉気候物理医学会雑誌, 67 : 237-243, 2004
5) Rabini A, et al : Deep heating therapy via microwave diathermy relieves pain and improves physical function in patients with knee osteoarthritis : a double-blind randomized clinical trial. Eur J Phys Rehabil Med, 48 : 549-559, 2012
6) Fu T, et al : Role of shortwave and microwave diathermy in peripheral neuropathy. J Int Med Res, 47 : 3569-3579, 2019
7) Feigal DW Jr : Public health notification : diathermy interactions with implanted leads and implanted systems with leads. J Ir Dent Assoc, 49 : 26-27, 2003
8) 「Michlovitz's Modalities for Therapeutic Intervention 6th Edition」 (Bellew JW, et al/eds), F.A. Davis, 2016
P.152 掲載の参考文献
1) 「Krusen's Handbook of Physical Medicine and Rehabilitation 4th Edition」 (Kottke FJ & Lehmann JF/eds), Saunders, 1990
2) 「Michlovitz's Modalities for Therapeutic Intervention 6th Edition」 (Bellew JW, et al/eds), F.A. Davis, 2016
3) 「Integrating Physical Agents in Rehabilitation 2nd Edition」 (Hecox B, et al/eds), Pearson, 2005
4) 「Physical Agents in Rehabilitation 3rd Edition」 (Cameron MH/ed), Saunders, 2009
5) Draper DO, et al : Rate of temperature increase in human muscle during 1 MHz and 3 MHz continuous ultrasound. J Orthop Sports Phys Ther, 22 : 142-150, 1995
6) Burns BL, et al : Determination of the magnitude, rate and duration of temperature changes in the human Achilles tendon with application of 3 MHz ultrasound at two intensities. J Orthop Sports Phys Ther, 31 : A-47, 2001
7) Ebadi S, et al : Therapeutic ultrasound for chronic low-back pain. Cochrane Database Syst Rev, CD009169, 2014
8) O'Connor D, et al : Non-surgical treatment (other than steroid injection) for carpal tunnel syndrome. Cochrane Database Syst Rev, CD003219, 2003
9) Green S, et al : Physiotherapy interventions for shoulder pain. Cochrane Database Syst Rev, CD004258, 2003
10) Rennie S : ELECTROPHYSICAL AGENTS-Contraindications And Precautions : An Evidence-Based Approach To Clinical Decision Making In Physical Therapy. Physiother Can, 62 : 1-80, 2010
11) Kocaoglu B, et al : The effect of therapeutic ultrasound on metallic implants : a study in rats. Arch Phys Med Rehabil, 92 : 1858-1862, 2011
12) Weaver SL, et al : Effect of transducer velocity on intramuscular temperature during a 1-MHz ultrasound treatment. J Orthop Sports Phys Ther, 36 : 320-325, 2006
13) O'Brien WD Jr : Ultrasound-biophysics mechanisms. Prog Biophys Mol Biol, 93 : 212-255, 2007
14) Leighton TG, et al : A search for sonoluminescence in vivo in the human cheek. Ultrasonics, 28 : 181-184, 1990
P.166 掲載の参考文献
1) 加賀谷善教 : 寒冷療法. 理学療法学, 32 : 265-268, 2005
2) Hayden CA : Cryokinetics in early treatment program. Phys Ther, 44 : 990-993, 1964
3) 山内寿馬, 他 : 極低温療法の応用と運動療法-慢性関節リウマチを中心として-理・作・療法, 15 : 497-501, 1981
4) 加賀谷善教 : 炎症症状の抑制を目的とした寒冷療法の実践方法と臨床効果. 理学療法, 29 : 987-993, 2012
5) Mirkin G : Why Ice Delays Recovery (https://www.drmirkin.com/fitness/why-ice-delays-recovery.html), Drmirkin.com, 2021
6) 「クライオセラピースポーツ外傷の管理における冷却療法」 (ケネス・L・ナイト/著, 田渕健一/監, Sportsmedicine Quarterly/訳編), Book House HD, 1997
7) Tomchuk D, et al : The magnitude of tissue cooling during cryothrapy with varied types of compression. J Athl Train, 45 : 230-237, 2010
8) Merrick MA, et al : The effects of ice and compression wraps on intramuscular temperatures at various depths. J Athl Train, 28 : 236-245, 1993
9) Oosterveld FG et al : The effect of local heat and cold therapy on the intraarticular and skin surface temperature of the knee. Arthritis Rheum, 35 : 146-151, 1992
10) Nordstrom CH, et al : Reduction of cerebral blood flow and oxygen consumption with a combination of barbiturate anaesthesia and induced hypothermia in the rat. Acta Anaesthesiol Scand, 22 : 7-12, 1978
11) Zachariassen KE : Hypothermia and cellular physiology. Arctic Med Res, 50 Suppl 6 : 13-17, 1991
12) Mac Auley DC : Ice therapy : how good is the evidence? Int J Sports Med, 22 : 379-384, 2001
13) Eltzschig HK & Carmeliet P : Hypoxia and inflammation. N Engl J Med, 364 : 656-665, 2011
14) Schaser KD, et al : Local cooling restores microcirculatory hemodynamics after closed soft-tissue trauma in rats. J Trauma, 61 : 642-649, 2006
15) Crystal NJ, et al : Effect of cryotherapy on muscle recovery and inflammation following a bout of damaging exercise. Eur J Appl Physiol, 113 : 2577-2586, 2013
16) Takagi R, et al : Influence of icing on muscle regeneration after crush injury to skeletal muscles in rats. J Appl Physiol, 110 : 382-388, 2011
17) Lee H, et al : Effects of cryotherapy after contusion using real-time intravital microscopy. Med Sci Sports Exerc, 37 : 1093-1098, 2005
18) McMeeken J, et al : Effects of cooling with simulated ice on skin temperature and nerve conduction velocity. Aust J Physiother, 30 : 111-114, 1984
19) Bugaj R : The cooling, analgesic, and rewarming effects of ice massage on localized skin. Phys Ther, 55 : 11-19, 1975
20) Algafly AA, et al : The effect of cryotherapy on nerve conduction velocity, pain threshold and pain tolerance. Br J Sports Med, 41 : 365-369, 2007
21) Park KN, et al : Comparison of the effects of local cryotherapy and passive cross-body stretch on extensibility in subjects with posterior shoulder tightness. J Sports Sci Med, 13 : 84-90, 2014
22) Brodowicz GR, et al : Comparison of stretching with ice, stretching with heat, or stretching alone on hamstring flexibility. J Athl Train, 31 : 324-327, 1996
23) Clarke RSJ, et al : The duration of sustained contractions of the human forearm at different muscle temperatures. J Physiol, 143 : 454-473, 1958
24) Clendenin MA, et al : Influence of cutaneous ice application on single motor units in humans. Phys Ther, 51 : 166-175, 1971
25) Poppendieck W, et al : Cooling and performance recovery of trained athletes : a meta-analytical review. Int J Sports Physiol Perform, 8 : 227-242, 2013
26) Verducci FM : Interval cryotherapy and fatigue in university baseball pitchers. Res Q Exerc Sport, 72 : 280-287, 2001
27) Wassinger CA, et al : Proprioception and throwing accuracy in the dominant shoulder after cryotherapy. J Athl Train, 42 : 84-89, 2007
28) Kwon YS, et al : Palm cooling delays fatigue during high-intensity bench press exercise. Med Sci Sports Exerc, 42 : 1557-1565, 2010
29) 加賀谷善教 : RICEの科学. 「スポーツ理学療法プラクティス 急性期治療とその技法」 (片寄正樹, 他/編), pp987-993, 文光堂, 2017
30) 坂本雅昭, 他 : 寒冷療法と皮膚温の変化-3種類の冷却方法での比較-. 理学療法科学, 14 : 25-28, 1999
31) 入江一憲 : 足関節外側部に対してのアイシングによる皮膚温分布と冷却効果-アイスパックの内容物による比較-理学療法科学, 21 : 163-167, 2006
32) Meeusen R & Lievens P : The use of cryotherapy in sports injuries. Sports Med, 3 : 398-414, 1986
33) 加賀谷善教 : スポーツ障害に対するアイシングの効果. 臨床スポーツ医学, 32 : 488-492, 2015
34) 加賀谷善教 : スポーツ障害に対する寒冷療法の効果. 臨床スポーツ医学, 3 : 66-77, 2020
35) Dykstra JH, et al : Comparisons of cubed ice, crushed ice, and wetted ice on intramuscular and surface temperature changes. J Athl Train, 44 : 136-141, 2009
36) Bleakley C, et al : The use of ice in the treatment of acute soft-tissue injury : a systematic review of randomized controlled trials. Am J Sports Med, 32 : 251-261, 2004
37) Laktasic Zerjavic N, et al : Local cryotherapy, comparison of cold air and ice massage on pain and handgrip strength in patients with rheumatoid arthritis. Psychiatr Danub, 33 (Suppl 4) : 757-761, 2021
38) Higgins TR, et al : A random control trial of contrast baths and ice baths for recovery during competition in U/20 rugby union. J Strength Cond Res, 25 : 1046-1051, 2011
39) De Bie A, et al : Enhanced recovery after lumbar fusion surgery : Benefits of using Game Readyc. Orthop Traumatol Surg Res, 107 : 102953, 2021
40) Bouzigon R, et al : Whole- and partial-body cryostimulation/cryotherapy : Current technologies and practical applications. J Therm Biol, 61 : 67-81, 2016
41) Fonda B, et al : Effects of whole-body cryotherapy on recovery after hamstring damaging exercise : a crossover study. Scand J Med Sci Sports, 23 : e270-e278, 2013
42) Dupuy O, et al : An Evidence-Based Approach for Choosing Post-exercise Recovery Techniques to Reduce Markers of Muscle Damage, Soreness, Fatigue, and Inflammation : A Systematic Review With Meta-Analysis. Front Physiol, 9 : 403, 2018
P.198 掲載の参考文献
1) 「光の小さな粒 新世紀を照らす近接場光」 (大津元一/著), pp1-18, 裳華房, 2001
2) 吉田英樹 : 光線療法. 「テキスト物理療法学 基礎と臨床」 (濱出茂治, 烏野大/編著), pp166-172, 医歯薬出版, 2016
3) 片岡洋祐 : 神経への低反応レベルレーザー作用の基礎科学. 日本レーザー治療学会誌, 8 : 36-40, 2009
4) 竹内伸行, 他 : 直線偏光近赤外線照射が脳血管障害片麻痺患者の痙縮に与える影響-無作為化比較試験による神経照射と筋腹照射の検討-. 理学療法学, 35 : 13-22, 2008
5) 吉田憲司 : 三叉神経損傷の光線照射療法. 日本レーザー治療学会誌, 5 : 90-95, 2006
6) 戸田昇 : 内皮由来弛緩因子 (EDRF) と血管攣縮. 日本内科学会雑誌, 80 : 1969-1974, 1991
7) Maegawa Y, et al : Effects of near-infrared low-level laser irradiation on microcirculation. Lasers Surg Med, 27 : 427-437, 2000
8) Silveira PC, et al : Low-level laser therapy attenuates the acute inflammatory response induced by muscle traumatic injury. Free Radic Res, 50 : 503-513, 2016
9) Albertini R, et al : Anti-inflammatory effects of low-level laser therapy (LLLT) with two different red wavelengths (660 nm and 684 nm) in carrageenan-induced rat paw edema. J Photochem Photobiol B, 89 : 50-55, 2007
10) 大和正典, 他 : 近赤外低反応レベルレーザー照射による腎炎抑制効果. 日本レーザー医学会誌, 34 : 402-405, 2014
11) Guffey JS & Wilborn J : Effects of combined 405-nm and 880-nm light on Staphylococcus aureus and Pseudomonas aeruginosa in vitro. Photomed Laser Surg, 24 : 680-683, 2006
12) Kim S, et al : In vitro bactericidal effects of 625, 525, and 425 nm wavelength (red, green, and blue) light-emitting diode irradiation. Photomed Laser Surg, 31 : 554-562, 2013
13) Nussbaum EL, et al : Effects of low-level laser therapy (LLLT) of 810 nm upon in vitro growth of bacteria : relevance of irradiance and radiant exposure. J Clin Laser Med Surg, 21 : 283-290, 2003
14) Passarella S, et al : Increase of proton electrochemical potential and ATP synthesis in rat liver mitochondria irradiated in vitro by helium-neon laser. FEBS Lett, 175 : 95-99, 1984
15) Ferraresi C, et al : Low-level laser (light) therapy (LLLT) on muscle tissue : performance, fatigue and repair benefited by the power of light. Photonics Lasers Med, 1 : 267-286, 2012
16) 「図解入門 よくわかる光学とレーザーの基本と仕組み 光の性質と応用 第2版」 (潮 秀樹/著), pp249-288, 秀和システム, 2010
17) 「トコトンやさしい光の本」 (谷腰欣司/著), pp64-84, 日刊工業新聞社, 2004
18) ELECTROPHYSICAL AGENTS-Contraindications And Precautions : An Evidence-Based Approach To Clinical Decision Making In Physical Therapy. Physiother Can, 62 : 1-80, 2010
19) 粟津邦男 : 生体組織の光学特性値計測・算出. 光学, 41 : 444-449, 2012
20) 大城貴史, 他 : レーザー光による光活性化作用-LLLTによる創傷治癒促進効果の正しい理解のために-. 日本レーザー歯学会誌, 27 : 27-31, 2016
21) Mantineo M, et al : Low-level laser therapy on skeletal muscle inflammation : evaluation of irradiation parameters. J Biomed Opt, 19 : 098002, 2014
22) 湯浅敦智, 吉田英樹 : 腰部交感神経節近傍へのキセノン光照射の効果- 自律神経機能, 疼痛, 運動機能による検討-. 理学療法科学, 23 : 759-763, 2008
23) 佐藤洋子, 他 : 医用レーザー外科診療における安全看護管理の検討 : レーザーメスによる気管内チューブ発火例と安全対策. 北海道大学医療技術短期大学部紀要, 4 : 117-127, 1991
24) 鈴木泰明, 他 : 電気メス, レーザー等を用いた手術に関連するインシデントについて. 日本レーザー歯学会誌, 25 : 136-139, 2014
25) 近藤宏明 : 直線偏光近赤外線治療器の紹介. ペインクリニック, 18 : 903-907, 1997
26) 日本レーザー治療学会HP (http://jalta-jp.com/)
27) ミナト医科学社HP ソフトレーザリー JQ-W1 (http://www.minato-med.co.jp/medical/products/physical/jqw1.php)
28) Heu F, et al : Effect of low-level laser therapy on blood flow and oxygen- hemoglobin saturation of the foot skin in healthy subjects : a pilot study. Laser Ther, 22 : 21-30, 2013
29) 小山田喜敬, 伊豆 悟 : 慢性関節リウマチ (RA) 及びリウマチ周辺疾患における低出力レーザー照射の検討. 日本レーザー医学会誌, 6 : 375-378, 1986
30) Albertini R, et al : Anti-inflammatory effects of low-level laser therapy (LLLT) with two different red wavelengths (660 nm and 684 nm) in carrageenan-induced rat paw edema. J Photochem Photobiol B, 89 : 50-55, 2007
31) Kajagar BM, et al : Efficacy of low level laser therapy on wound healing in patients with chronic diabetic foot ulcers-a randomised control trial. Indian J Surg, 74 : 359-363, 2012
32) 竹内伸行, 松本昌尚 : 10W 半導体レーザーのパルス照射が電流知覚閾値と電流痛覚閾値に与える即時効果-健常成人を対象とした基礎的検討-. 日本レーザー医学会誌, 40 : 309-313, 2020
33) 大野達朗 : 低出力半導体レーザー照射の疼痛抑制に関する研究 ラット脊髄後根神経節内サブスタンスPの定量的検討. 日医大誌, 64 : 395-400, 1997
34) Tsuchiya K, et al : Diode laser irradiation selectively diminishes slow component of axonal volleys to dorsal roots from the saphenous nerve in the rat. Neurosci Lett, 161 : 65-68, 1993
35) Tsuchiya K, et al : Laser irradiation abates neuronal responses to nociceptive stimulation of rat-paw skin. Brain Res Bull, 34 : 369-374, 1994
36) Sato T, et al : Ga-Al-As laser irradiation inhibits neuronal activity associated with inflammation. Acupunct Electrother Res, 19 : 141-151, 1994
37) Matsutani LA, et al : Effectiveness of muscle stretching exercises with and without laser therapy at tender points for patients with fibromyalgia. Clin Exp Rheumatol, 25 : 410-415, 2007
38) Gur A, et al : Efficacy of low power laser therapy and exercise on pain and functions in chronic low back pain. Lasers Surg Med, 32 : 233-238, 2003
39) ガイドライン特別委員会 理学療法診療ガイドライン部会 : 4. 肩関節周囲炎. 「理学療法診療ガイドライン 第1版 (2011) 」 (社団法人日本理学療法士協会), pp234-276, 2011
40) Stergioulas A : Low-power laser treatment in patients with frozen shoulder : preliminary results. Photomed Laser Surg, 26 : 99-105, 2008
41) 村木孝行 : 肩関節周囲炎 理学療法診療ガイドライン. 理学療法学, 43 : 67-72, 2016
42) Abrisham SM, et al : Additive effects of low-level laser therapy with exercise on subacromial syndrome : a randomised, double-blind, controlled trial. Clin Rheumatol, 30 : 1341-1346, 2011
43) 「スーパーライザー神経照射法」 (村上誠一/監), pp32-35, 真興交易医書出版部, 2000
44) 日本メディックス社製品カタログ (https://www.nihonmedix.co.jp/products/details/prd_000107.php)
45) 近藤宏明 : 直線偏光近赤外線治療器の紹介. ペインクリニック, 18 : 903-907, 1997
46) 御子柴憲彦, 他 : 偏光した近赤外発光ダイオード光による創傷治癒効果の基礎研究. 日本レーザー医学会誌, 6 : 179-182, 1986
47) 杉元雅晴 : 第6章 光線療法 III. 各種光線療法の実際 : 紫外線療法. 「標準理学療法学 物理療法学 第4版」 (奈良勲/監, 網本 和, 菅原憲一/編), pp176-184, 医学書院, 2013
48) Micic I, et al : The effect of short-term low-energy ultraviolet B irradiation on bone mineral density and bone turnover markers in postmenopausal women with osteoporosis : a randomized single-blinded controlled clinical trial. Srp Arh Celok Lek, 141 : 615-622, 2013
P.216 掲載の参考文献
1) 伊橋光二 : 機能的電気刺激の効果と課題. 理学療法学, 33 : 245-247, 2006
2) 高見正利 : 電気物理学. 「物理療法マニュアル」 (嶋田智明, 他/著), pp1-24, 医歯薬出版, 1996
3) 「臨床電気神経生理学の基本」 (橋本修治/著), 診断と治療社, 2013
4) 村岡慶裕, 石尾晶代 : 電気刺激とは何か?. 「リハビリテーションのための臨床神経生理学」 (正門由久/編), pp35-50, 中外医学社, 2015
5) 「Physical Agents in Rehabilitation : From Research to Practice 4th Edition」 (Cameron MH/ed), Saunders, 2012
6) neurocare HP (https://www.neurocaregroup.com/dc_stimulator_plus)
7) Fuentes JP, et al : Effectiveness of interferential current therapy in the management of musculoskeletal pain : a systematic review and meta-analysis. Phys Ther, 90 : 1219-1238, 2010
8) Ward AR & Shkuratova N : Russian electrical stimulation : the early experiments. Phys Ther, 82 : 1019-1030, 2002
9) Vaz MA, Frasson VB : Low-Frequency Pulsed Current Versus Kilohertz-Frequency Alternating Current : A Scoping Literature Review. Arch Phys Med Rehabil, 99 : 792-805, 2018
10) Bergquist AJ, et al : Neuromuscular electrical stimulation : implications of the electrically evoked sensory volley. Eur J Appl Physiol, 111 : 2409-2426, 2011
11) Collins DF : Central contributions to contractions evoked by tetanic neuromuscular electrical stimulation. Exerc Sport Sci Rev, 35 : 102-109, 2007
12) Kaelin-Lang A, et al : Modulation of human corticomotor excitability by somatosensory input. J Physiol, 540 : 623-633, 2002
13) 「最新物理療法の臨床適応」 (庄本康治/編), 文光堂, 2012
14) 日本メディックス社HP (https://www.nihonmedix.co.jp/en/products/details/000022.html)
15) Rennie S : ELECTROPHYSICAL AGENTS-Contraindications And Precautions : An Evidence-Based Approach To Clinical Decision Making In Physical Therapy. Physiother Can, 62 : 1-80, 2010
16) Loh J & Gulati A : The use of transcutaneous electrical nerve stimulation (TENS) in a major cancer center for the treatment of severe cancer-related pain and associated disability. Pain Med, 16 : 1204-1210, 2015
P.233 掲載の参考文献
1) 「Transcutaneous Electrical Nerve Stimulation (TENS) : Research to support clinical practice」(Johnson MI/ed), p7, Oxford University Press, 2014
2) Han JS, et al : Effect of low- and high-frequency TENS on Met-enkephalin-Arg-Phe and dynorphin A immunoreactivity in human lumbar CSF. Pain, 47 : 295-298, 1991
3) Han JS & Terenius L : Neurochemical basis of acupuncture analgesia. Annu Rev Pharmacol Toxicol, 22 : 193-220, 1982
4) Pert CB & Snyder SH : Opiate receptor : demonstration in nervous tissue. Science, 179 : 1011-1014, 1973
5) Hamza MA, et al : Effect of the frequency of transcutaneous electrical nerve stimulation on the postoperative opioid analgesic requirement and recovery profile. Anesthesiology, 91 : 1232-1238, 1999
6) Desantana JM, et al : Modulation between high- and low-frequency transcutaneous electric nerve stimulation delays the development of analgesic tolerance in arthritic rats. Arch Phys Med Rehabil, 89 : 754-760, 2008
7) 「Transcutaneous Electrical Nerve Stimulation (TENS) : Research to support clinical practice」 (Johnson MI/ed), p187, Oxford University Press, 2014
8) Kocyigit F, et al : Functional magnetic resonance imaging of the effects of low-frequency transcutaneous electrical nerve stimulation on central pain modulation : a double-blind, placebo-controlled trial. Clin J Pain, 28 : 581-588, 2012
9) 「Transcutaneous Electrical Nerve Stimulation (TENS) : Research to support clinical practice」 (Johnson MI/ed), p173, Oxford University Press, 2014
10) 「Transcutaneous Electrical Nerve Stimulation (TENS) : Research to support clinical practice」 (Johnson MI/ed), p174, Oxford University Press, 2014
11) Bennett MI, et al : Methodological quality in randomised controlled trials of transcutaneous electric nerve stimulation for pain : low fidelity may explain negative findings. Pain, 152 : 1226-1232, 2011
12) Bjordal JM, et al : Transcutaneous electrical nerve stimulation (TENS) can reduce postoperative analgesic consumption. A meta-analysis with assessment of optimal treatment parameters for postoperative pain. Eur J Pain, 7 : 181-188, 2003
13) Sbruzzi G, et al : Transcutaneous electrical nerve stimulation after thoracic surgery : systematic review and meta-analysis of 11 randomized trials. Rev Bras Cir Cardiovasc, 27 : 75-87, 2012
14) Melzack R & Wall PD : Pain mechanisms : a new theory. Science, 150 : 971-979, 1965
15) Tonella RM, et al : Transcutaneous electrical nerve stimulation in the relief of pain related to physical therapy after abdominal surgery. Rev Bras Anestesiol, 56 : 630-642, 2006
16) Fiorelli A, et al : Control of post-thoracotomy pain by transcutaneous electrical nerve stimulation : effect on serum cytokine levels, visual analogue scale, pulmonary function and medication. Eur J Cardiothorac Surg, 41 : 861-868, 2012
17) Tokuda M, et al : Effect of modulated-frequency and modulated-intensity transcutaneous electrical nerve stimulation after abdominal surgery : a randomized controlled trial. Clin J Pain, 30 : 565-570, 2014
18) Likar R, et al : Postoperative transcutaneous electrical nerve stimulation (TENS) in shoulder surgery (randomized, double blind, placebo controlled pilot trial). Schmerz, 15 : 158-163, 2001
19) Unterrainer AF, et al : Postoperative and preincisional electrical nerve stimulation TENS reduce postoperative opioid requirement after major spinal surgery. J Neurosurg Anesthesiol, 22 : 1-5, 2010
20) Rakel BA, et al : Transcutaneous electrical nerve stimulation for the control of pain during rehabilitation after total knee arthroplasty : A randomized, blinded, placebo-controlled trial. Pain, 155 : 2599-2611, 2014
21) Wu Y, et al : Effects of transcutaneous electrical nerve stimulation (TENS) in people with knee osteoarthritis : A systematic review and meta-analysis. Clin Rehabil, 36 : 472-485, 2022
22) Oncel M, et al : Transcutaneous electrical nerve stimulation for pain management in patients with uncomplicated minor rib fractures. Eur J Cardiothorac Surg, 22 : 13-17, 2002
23) Khadilkar A, et al : Transcutaneous electrical nerve stimulation (TENS) versus placebo for chronic low-back pain. Cochrane Database Syst Rev, CD003008, 2008
24) American Society of Anesthesiologists Task Force on Chronic Pain Management, et al : Practice guidelines for chronic pain management : an updated report by the American Society of Anesthesiologists Task Force on Chronic Pain Management and the American Society of Regional Anesthesia and Pain Medicine. Anesthesiology, 112 : 810-833, 2010
25) Gibson W, et al : Transcutaneous electrical nerve stimulation (TENS) for neuropathic pain in adults. Cochrane Database Syst Rev, 9 : CD011976, 2017
26) Matsuo H, et al : Early transcutaneous electrical nerve stimulation reduces hyperalgesia and decreases activation of spinal glial cells in mice with neuropathic pain. Pain, 155 : 1888-1901, 2014
27) Jin DM, et al : Effect of transcutaneous electrical nerve stimulation on symptomatic diabetic peripheral neuropathy : a meta-analysis of randomized controlled trials. Diabetes Res Clin Pract, 89 : 10-15, 2010
28) Celik EC, et al : The effect of low-frequency TENS in the treatment of neuropathic pain in patients with spinal cord injury. Spinal Cord, 51 : 334-337, 2013
29) Boldt I, et al : Non-pharmacological interventions for chronic pain in people with spinal cord injury. Cochrane Database Syst Rev, CD009177, 2014
30) Somers DL & Clemente FR : Transcutaneous electrical nerve stimulation for the management of neuropathic pain : the effects of frequency and electrode position on prevention of allodynia in a rat model of complex regional pain syndrome type II. Phys Ther, 86 : 698-709, 2006
31) Bilgili A, et al : The effectiveness of transcutaneous electrical nerve stimulation in the management of patients with complex regional pain syndrome : A randomized, double-blinded, placebo-controlled prospective study. J Back Musculoskelet Rehabil, 29 : 661-671, 2016
32) Barbarisi M, et al : Pregabalin and transcutaneous electrical nerve stimulation for postherpetic neuralgia treatment. Clin J Pain, 26 : 567-572, 2010
33) Kolsek M : TENS-an alternative to antiviral drugs for acute herpes zoster treatment and postherpetic neuralgia prevention. Swiss Med Wkly, 141 : w13229, 2012
34) Kilinc M, et al : Effects of transcutaneous electrical nerve stimulation in patients with peripheral and central neuropathic pain. J Rehabil Med, 46 : 454-460, 2014
35) Bennett MI, et al : Feasibility study of Transcutaneous Electrical Nerve Stimulation (TENS) for cancer bone pain. J Pain, 11 : 351-359, 2010
36) Loh J & Gulati A : Transcutaneous electrical nerve stimulation for treatment of sarcoma cancer pain. Pain Manag, 3 : 189-199, 2013
37) Robb KA, et al : Transcutaneous electrical nerve stimulation vs. transcutaneous spinal electroanalgesia for chronic pain associated with breast cancer treatments. J Pain Symptom Manage, 33 : 410-419, 2007
38) Hurlow A, et al : Transcutaneous electric nerve stimulation (TENS) for cancer pain in adults. Cochrane Database Syst Rev, CD006276, 2012
39) Leonard G, et al : Reduced analgesic effect of acupuncture-like TENS but not conventional TENS in opioid-treated patients. J Pain, 12 : 213-221, 2011
40) Chandran P & Sluka KA : Development of opioid tolerance with repeated transcutaneous electrical nerve stimulation administration. Pain, 102 : 195-201, 2003
41) Johnson MI, et al : Transcutaneous electrical nerve stimulation (TENS) for phantom pain and stump pain following amputation in adults. Cochrane Database Syst Rev, 8 : CD007264, 2015
42) Ainsworth L, et al : Transcutaneous electrical nerve stimulation (TENS) reduces chronic hyperalgesia induced by muscle inflammation. Pain, 120 : 182-187, 2006
43) Sabino GS, et al : Release of endogenous opioids following transcutaneous electric nerve stimulation in an experimental model of acute inflammatory pain. J Pain, 9 : 157-163, 2008
44) Giuffrida O, et al : Contralateral stimulation, using TENS, of phantom limb pain : two confirmatory cases. Pain Med, 11 : 133-141, 2010
45) Mulvey MR, et al : Transcutaneous electrical nerve stimulation for phantom pain and stump pain in adult amputees. Pain Pract, 13 : 289-296, 2013
46) Proctor ML, et al : Transcutaneous electrical nerve stimulation and acupuncture for primary dysmenorrhoea. Cochrane Database Syst Rev, CD002123, 2002
47) 「Transcutaneous Electrical Nerve Stimulation (TENS) Research to support clinical practice」 (Johnson MI/ed), pp147-169, Oxford university press, 2014
48) 「Emergency Management of Skeletal Injuries」 (Ruiz E & Cicero JJ/eds), Mosby-Yearbook, 1995
49) McCredie J & Willert HG : Longitudinal limb deficiencies and the sclerotomes. An analysis of 378 dysmelic malformations induced by thalidomide. J Bone Joint Surg Br, 81 : 9-23, 1999
50) 「Transcutaneous Electrical Nerve Stimulation (TENS) : Research to support clinical practice」 (Johnson MI/ed), p76, Oxford University Press, 2014
51) Liebano RE, et al : An investigation of the development of analgesic tolerance to TENS in humans. Pain, 152 : 335-342, 2011
52) 「最新物理療法の臨床適応」 (庄本康治/編), p153, 文光堂, 2012
53) 徳田光紀 : 腹部外科手術後のTENSの効果. 理学療法ジャーナル, 50 : 255-260, 2016
P.261 掲載の参考文献
1) 「EBM 物理療法原著第3版」 (Cameron MH/著, 渡部一郎/訳), 医歯薬出版, 2010
2) Bickel CS, et al : Motor unit recruitment during neuromuscular electrical stimulation : a critical appraisal. Eur J Appl Physiol, 111 : 2399-2407, 2011
3) Kern H, et al : Electrical stimulation counteracts muscle decline in seniors. Front Aging Neurosci, 6 : 189, 2014
4) Strasser EM, et al : Neuromuscular electrical stimulation reduces skeletal muscle protein degradation and stimulates insulin-like growth factors in an age- and current-dependent manner : a randomized, controlled clinical trial in major abdominal surgical patients. Ann Surg, 249 : 738-743, 2009
5) Collins DF : Central contributions to contractions evoked by tetanic neuromuscular electrical stimulation. Exerc Sport Sci Rev, 35 : 102-109, 2007
6) Talbot LA, et al : A home-based protocol of electrical muscle stimulation for quadriceps muscle strength in older adults with osteoarthritis of the knee. J Rheumatol, 30 : 1571-1578, 2003
7) Stevens-Lapsley JE, et al : Early neuromuscular electrical stimulation to improve quadriceps muscle strength after total knee arthroplasty : a randomized controlled trial. Phys Ther, 92 : 210-226, 2012
8) Yoshida Y, et al : Comparison of the effect of sensory-Level and conventional motor-Level neuromuscular electrical stimulations on quadriceps strength after total knee arthroplasty : a prospective randomized single-blind trial. Arch Phys Med Rehabil, 98 : 2364-2370, 2017
9) Hauger AV, et al : Neuromuscular electrical stimulation is effective in strengthening the quadriceps muscle after anterior cruciate ligament surgery. Knee Surg Sports Traumatol Arthrosc, 26 : 399-410, 2018
10) Vivodtzev I, et al : Functional and muscular effects of neuromuscular electrical stimulation in patients with severe COPD : a randomized clinical trial. Chest, 141 : 716-725, 2012
11) Dobsak P, et al : Electrical stimulation of skeletal muscles. An alternative to aerobic exercise training in patients with chronic heart failure? Int Heart J, 47 : 441-453, 2006
12) Shoemaker MJ, et al : Physical Therapist Clinical Practice Guideline for the Management of Individuals With Heart Failure. Phys Ther, 100 : 14-43, 2020
13) Dobsak P, et al : Intra-dialytic electrostimulation of leg extensors may improve exercise tolerance and quality of life in hemodialyzed patients. Artif Organs, 36 : 71-78, 2012
14) Valenzuela PL, et al : Intradialytic neuromuscular electrical stimulation improves functional capacity and muscle strength in people receiving haemodialysis : a systematic review. J Physiother, 66 : 89-96, 2020
15) Routsi C, et al : Electrical muscle stimulation prevents critical illness polyneuromyopathy : a randomized parallel intervention trial. Crit Care, 14 : R74, 2010
16) Segers J, et al : Feasibility of neuromuscular electrical stimulation in critically ill patients. J Crit Care, 29 : 1082-1088, 2014
17) Liu M, et al : Intervention effect of neuromuscular electrical stimulation on ICU acquired weakness : A meta-analysis. Int J Nurs Sci, 7 : 228-237, 2020
18) Miyamoto T, et al : Effect of percutaneous electrical muscle stimulation on postprandial hyperglycemia in type 2 diabetes. Diabetes Res Clin Pract, 96 : 306-312, 2012
19) Teschler M, et al : Four weeks of electromyostimulation improves muscle function and strength in sarcopenic patients : a three-arm parallel randomized trial. J Cachexia Sarcopenia Muscle, 12 : 843-854, 2021
20) Freed ML, et al : Electrical stimulation for swallowing disorders caused by stroke. Respir Care, 46 : 466-474, 2001
21) Maeda K, et al : Interferential current sensory stimulation, through the neck skin, improves airway defense and oral nutrition intake in patients with dysphagia : a double-blind randomized controlled trial. Clin Interv Aging, 12 : 1879-1886, 2017
22) 「機能障害科学入門」 (千住秀明/監, 沖田実, 他/編), 九州神陵文庫, 2010
23) Arene N & Hidler J : Understanding motor impairment in the paretic lower limb after a stroke : a review of the literature. Top Stroke Rehabil, 16 : 346-356, 2009
24) English C, et al : Loss of skeletal muscle mass after stroke : a systematic review. Int J Stroke, 5 : 395-402, 2010
25) Shin HK, et al : Cortical effect and functional recovery by the electromyography-triggered neuromuscular stimulation in chronic stroke patients. Neurosci Lett, 442 : 174-179, 2008
26) Khaslavskaia S & Sinkjaer T : Motor cortex excitability following repetitive electrical stimulation of the common peroneal nerve depends on the voluntary drive. Exp Brain Res, 162 : 497-502, 2005
27) Riley JD, et al : Anatomy of stroke injury predicts gains from therapy. Stroke, 42 : 421-426, 2011
28) Jang SH : A review of the ipsilateral motor pathway as a recovery mechanism in patients with stroke. NeuroRehabilitation, 24 : 315-320, 2009
29) Hayward K, et al : Interventions to promote upper limb recovery in stroke survivors with severe paresis : a systematic review. Disabil Rehabil, 32 : 1973-1986, 2010
30) Lin Z & Yan T : Long-term effectiveness of neuromuscular electrical stimulation for promoting motor recovery of the upper extremity after stroke. J Rehabil Med, 43 : 506-510, 2011
31) Inobe J & Kato T : Effectiveness of finger-equipped electrode (FEE) -triggered electrical stimulation improving chronic stroke patients with severe hemiplegia. Brain Inj, 27 : 114-119, 2013
32) Bender L & McKenna K : Hemiplegic shoulder pain : defining the problem and its management. Disabil Rehabil, 23 : 698-705, 2001
33) Chae J, et al : Poststroke shoulder pain : its relationship to motor impairment, activity limitation, and quality of life. Arch Phys Med Rehabil, 88 : 298-301, 2007
34) Blennerhassett JM, et al : Reduced active control and passive range at the shoulder increase risk of shoulder pain during inpatient rehabilitation post-stroke : an observational study. J Physiother, 56 : 195-199, 2010
35) Paci M, et al : Glenohumeral subluxation in hemiplegia : An overview. J Rehabil Res Dev, 42 : 557-568, 2005
36) Baker LL & Parker K : Neuromuscular electrical stimulation of the muscles surrounding the shoulder. Phys Ther, 66 : 1930-1937, 1986
37) Faghri PD, et al : The effects of functional electrical stimulation on shoulder subluxation, arm function recovery, and shoulder pain in hemiplegic stroke patients. Arch Phys Med Rehabil, 75 : 73-79, 1994
38) Chantraine A, et al : Shoulder pain and dysfunction in hemiplegia : effects of functional electrical stimulation. Arch Phys Med Rehabil, 80 : 328-331, 1999
39) Kobayashi H, et al : Reduction in subluxation and improved muscle function of the hemiplegic shoulder joint after therapeutic electrical stimulation. J Electromyogr Kinesiol, 9 : 327-336, 1999
40) Linn SL, et al : Prevention of shoulder subluxation after stroke with electrical stimulation. Stroke, 30 : 963-968, 1999
41) Wang RY, et al : Functional electrical stimulation on chronic and acute hemiplegic shoulder subluxation. Am J Phys Med Rehabil, 79 : 385-390 ; quiz 391-394, 2000
42) Yu DT, et al : Percutaneous intramuscular neuromuscular electric stimulation for the treatment of shoulder subluxation and pain in patients with chronic hemiplegia : a pilot study. Arch Phys Med Rehabil, 82 : 20-25, 2001
43) Fil A, et al : The effect of electrical stimulation in combination with Bobath techniques in the prevention of shoulder subluxation in acute stroke patients. Clin Rehabil, 25 : 51-59, 2011
44) Lee JH, et al : Effectiveness of neuromuscular electrical stimulation for management of shoulder subluxation post-stroke : a systematic review with meta-analysis. Clin Rehabil, 31 : 1431-1444, 2017
45) Wu FC, et al : Clinical effects of combined bilateral arm training with functional electrical stimulation in patients with stroke. IEEE Int Conf Rehabil Robot, 2011 : 5975367, 2011
46) Kojima K, et al : Feasibility study of a combined treatment of electromyography-triggered neuromuscular stimulation and mirror therapy in stroke patients : a randomized crossover trial. NeuroRehabilitation, 34 : 235-244, 2014
47) 村岡慶裕, 他 : 運動介助型電気刺激装置の開発と脳卒中片麻痺患者への使用経験. 理学療法学, 31 : 29-35, 2004
48) Taub E, et al : Improved motor recovery after stroke and massive cortical reorganization following Constraint-Induced Movement therapy. Phys Med Rehabil Clin N Am, 14 : S77-S91, 2003
49) Kaelin-Lang A, et al : Modulation of human corticomotor excitability by somatosensory input. J Physiol, 540 : 623-633, 2002
50) Celnik P, et al : Somatosensory stimulation enhances the effects of training functional hand tasks in patients with chronic stroke. Arch Phys Med Rehabil, 88 : 1369-1376, 2007
51) Ikuno K, et al : Effects of peripheral sensory nerve stimulation plus task-oriented training on upper extremity function in patients with subacute stroke : a pilot randomized crossover trial. Clin Rehabil, 26 : 999-1009, 2012
52) Newsam CJ & Baker LL : Effect of an electric stimulation facilitation program on quadriceps motor unit recruitment after stroke. Arch Phys Med Rehabil, 85 : 2040-2045, 2004
53) 福井直樹, 他 : 脳卒中後歩行障害に対するトレッドミルエクササイズ時の中殿筋への機能的電気刺激 : 一事例研究デザインによる予備的研究. 理学療法科学, 29 : 515-519, 2014
54) Liberson WT, et al : Functional electrotherapy : stimulation of the peroneal nerve synchronized with the swing phase of the gait of hemiplegic patients. Arch Phys Med Rehabil, 42 : 101-105, 1961
55) Kluding PM, et al : Foot drop stimulation versus ankle foot orthosis after stroke : 30-week outcomes. Stroke, 44 : 1660-1669, 2013
56) Johnston TE, et al : A Clinical Practice Guideline for the use of ankle-foot orthoses and functional electrical stimulation post-stroke. J Neurol Phys Ther, 45 : 112-196, 2021
57) Everaert DG, et al : Does functional electrical stimulation for foot drop strengthen corticospinal connections? Neurorehabil Neural Repair, 24 : 168-177, 2010
58) Yan T, et al : Functional electrical stimulation improves motor recovery of the lower extremity and walking ability of subjects with first acute stroke : a randomized placebo-controlled trial. Stroke, 36 : 80-85, 2005
59) Sabut SK, et al : Functional electrical stimulation of dorsiflexor muscle : effects on dorsiflexor strength, plantarflexor spasticity, and motor recovery in stroke patients. NeuroRehabilitation, 29 : 393-400, 2011
60) Bowden MG, et al : Anterior-posterior ground reaction forces as a measure of paretic leg contribution in hemiparetic walking. Stroke, 37 : 872-876, 2006
61) Kesar TM, et al : Functional electrical stimulation of ankle plantarflexor and dorsiflexor muscles : effects on poststroke gait. Stroke, 40 : 3821-3827, 2009
62) Awad LN, et al : Reducing the cost of transport and increasing walking distance after stroke : A randomized controlled trial on fast locomotor training combined with functional electrical stimulation. Neurorehabil Neural Repair, 30 : 661-670, 2016
63) 久保田雅史, 他 : 急性期脳梗塞患者に対する歩行中の機能的電気刺激治療が歩容および内側感覚運動皮質のヘモグロビン濃度へ及ぼす即時的効果. 理学療法学, 41 : 13-20, 2014
64) 高橋宣成 : 痙縮の定義をめぐる混乱. リハビリテーション医学, 53 : 642-649, 2016
65) 鏡原康裕 : 痙縮の病態生理. BRAIN and NERVE, 66 : 1019-1029, 2014
66) Nielsen JB, et al : The spinal pathophysiology of spasticity--from a basic science point of view. Acta Physiol (Oxf), 189 : 171-180, 2007
67) 「機能障害科学入門」 (千住秀明/監, 沖田実, 他/編), p314, 九州神陵文庫, 2010
68) Hultborn H, et al : On the mechanism of the post-activation depression of the H-reflex in human subjects. Exp Brain Res, 108 : 450-462, 1996
69) Nielsen J, et al : H-reflexes are less depressed following muscle stretch in spastic spinal cord injured patients than in healthy subjects. Exp Brain Res, 97 : 173-176, 1993
70) Nielsen J, et al : Changes in transmission across synapses of Ia afferents in spastic patients. Brain, 118 : 995-1004, 1995
71) Masakado Y, et al : Post-activation depression of the soleus H-reflex in stroke patients. Electromyogr Clin Neurophysiol, 45 : 115-122, 2005
72) Schieber MH : Chapter 2 Comparative anatomy and physiology of the corticospinal system. Handb Clin Neurol, 82 : 15-37, 2007
73) Li S, et al : A unifying pathophysiological account for post-stroke spasticity and disordered motor control. Front Neurol, 10 : 468, 2019
74) Gracies JM : Pathophysiology of spastic paresis. II : Emergence of muscle overactivity. Muscle Nerve, 31 : 552-571, 2005
75) 「ニューロリハビリテーション」 (道免和久/編), pp261-269, 医学書院, 2015
76) 「脳卒中治療ガイドライン 2021」 (日本脳卒中学会 脳卒中ガイドライン委員会/編), 協和企画, 2021
77) Ping Ho Chung B & Kam Kwan Cheng B : Immediate effect of transcutaneous electrical nerve stimulation on spasticity in patients with spinal cord injury. Clin Rehabil, 24 : 202-210, 2010
78) Stein C, et al : Effects of Electrical Stimulation in Spastic Muscles After Stroke : Systematic Review and Meta-Analysis of Randomized Controlled Trials. Stroke, 46 : 2197-2205, 2015
79) Mahmood A, et al : Effect of transcutaneous electrical nerve stimulation on spasticity in adults with stroke : a systematic review and meta-analysis. Arch Phys Med Rehabil, 100 : 751-768, 2019
80) Yamaguchi T, et al : Real-time changes in corticospinal excitability during voluntary contraction with concurrent electrical stimulation. PLoS One, 7 : e46122, 2012
81) Oo WM : Efficacy of addition of transcutaneous electrical nerve stimulation to standardized physical therapy in subacute spinal spasticity : a randomized controlled trial. Arch Phys Med Rehabil, 95 : 2013-2020, 2014
82) 中村潤二, 他 : 脳卒中片麻痺患者の痙縮に対するストレッチングと電気刺激の併用治療の効果の検討 : 予備的研究. 奈良理学療法学, 5 : 11-14, 2012
83) Ng SS & Hui-Chan CW : Transcutaneous electrical nerve stimulation combined with task-related training improves lower limb functions in subjects with chronic stroke. Stroke, 38 : 2953-2959, 2007
84) Baricich A, et al : A single-blinded, randomized pilot study of botulinum toxin type A combined with non-pharmacological treatment for spastic foot. J Rehabil Med, 40 : 870-872, 2008
85) 「生理学テキスト 第5版」 (大地陸男/著), pp91-124, 文光堂, 2007
86) Vodovnik L, et al : Effects of electrical stimulation on spinal spasticity. Scand J Rehabil Med, 16 : 29-34, 1984
87) 「カンデル神経科学 Principles of Neural Science, 5th Edition」 (Kandel ER, 他/著, 金澤一郎, 宮下保司/監), pp776-796, メディカル・サイエンス・インターナショナル, 2014
88) Miller L, et al : The effects of transcutaneous electrical nerve stimulation on spasticity. Physical Therapy Reviews, 10 : 201-208, 2005
89) Wang YH, et al : Full-movement neuromuscular electrical stimulation improves plantar flexor spasticity and ankle active dorsiflexion in stroke patients : a randomized controlled study. Clin Rehabil, 30 : 577-586, 2016
90) Han JS, et al : Transcutaneous electrical nerve stimulation for treatment of spinal spasticity. Chin Med J (Engl), 107 : 6-11, 1994
91) Zhao W, et al : Efficacy and safety of transcutaneous electrical acupoint stimulation to treat muscle spasticity following brain injury : a double-blinded, multicenter, randomized controlled trial. PLoS One, 10 : e0116976, 2015
92) Aydin G, et al : Transcutaneous electrical nerve stimulation versus baclofen in spasticity : clinical and electrophysiologic comparison. Am J Phys Med Rehabil, 84 : 584-592, 2005
93) 辻哲也, 他 : 脳血管障害片麻痺患者における痙縮評価 : Modified Ashworth Scale (MAS) の評価者間信頼性の検討. リハビリテーション医学, 39 : 409-415, 2002
94) 竹内伸行, 他 : Modified Tardieu Scale の臨床的有用性の検討 : 脳血管障害片麻痺患者における足関節底屈筋の評価. 理学療法学, 33 : 53-61, 2006
P.271 掲載の参考文献
1) 「最新物理療法の臨床適応」 (庄本康治/編), pp160-172, 文光堂, 2012
2) Higo N : Recent trend of transdermal drug delivery system development. Yakugaku Zasshi, 127 : 655-662, 2007
3) Bavaskar K, et al : The Impact of Penetration Enhancers on Transdermal Drug Delivery System : Physical and Chemical Approach. International Journal of Pharma Research & Review, 4 : 14-24, 2015
4) 「標準薬剤学 医療の担い手としての薬剤師をめざして 改訂第2版」 (渡辺善照, 芳賀信/編), p280, 南江堂, 2007
5) 「標準理学療法学・作業療法学 専門基礎分野 整形外科学 第3版」 (立野勝彦/著), pp59-68, 医学書院, 2010
6) 「標準理学療法学・作業療法学 専門基礎分野 整形外科学 第3版」 (立野勝彦/著), pp154-162, 医学書院, 2010
7) Gurney AB & Wascher DC : Absorption of dexamethasone sodium phosphate in human connective tissue using iontophoresis. Am J Sports Med, 36 : 753-759, 2008
8) Gudeman SD, et al : Treatment of plantar fasciitis by iontophoresis of 0.4 % dexamethasone. A randomized, double-blind, placebo-controlled study. Am J Sports Med, 25 : 312-316, 1997
9) Osborne HR & Allison GT : Treatment of plantar fasciitis by LowDye taping and iontophoresis : short term results of a double blinded, randomised, placebo controlled clinical trial of dexamethasone and acetic acid. Br J Sports Med, 40 : 545-549 ; discussion 549, 2006
10) Fathy AA & Abd El Rahman SM : The effect of Dexamethasone 0.4 % Iontophoresis in treatment of knee Osteoarthritis. Life Sci J, 13 : 28-34, 2016
11) 肥田光正, 他 : 変形性膝関節症に対するジクロフェナクナトリウムを用いたイオントフォレーシスの鎮痛効果 : 介入前後比較と一事例研究法による検討. 日本物理療法学会会誌, 20 : 54-58, 2013
12) Demirtas RN & Oner C : The treatment of lateral epicondylitis by iontophoresis of sodium salicylate and sodium diclofenac. Clin Rehabil, 12 : 23-29, 1998
13) Crevenna R, et al : Iontophoresis driven concentrations of topically administered diclofenac in skeletal muscle and blood of healthy subjects. Eur J Clin Pharmacol, 71 : 1359-1364, 2015
14) 「EBM物理療法 原著第4版」 (Cameron MH/著, 渡部一郎/訳), p294, 医歯薬出版, 2015
15) 「図説・臨床看護医学 改訂版 9 整形外科/皮膚」 (日野原重明/監, 岡安大仁, 他/編), p232, 同朋舎, 1999
P.279 掲載の参考文献
1) 「脳卒中理学療法の理論と技術 改訂第2版」 (原寛美, 吉尾雅春/編), pp409-420, メジカルビュー社, 2016
2) Skinner BF : The operational analysis of psychological terms. Psychological Review, 52 : 270-277, 1945
3) Schwartz GE & Shapiro D : Biofeedback and essential hypertension : current findings and theoretical concerns. Semin Psychiatry, 5 : 493-503, 1973
4) 長谷公隆 : 筋電図バイオフィードバック療法. 総合リハビリテーション, 32 : 1167-1173, 2004
5) Cauraugh J, et al : Chronic motor dysfunction after stroke : recovering wrist and finger extension by electromyography-triggered neuromuscular stimulation. Stroke, 31 : 1360-1364, 2000
6) 村岡慶裕, 他 : 運動介助型電気刺激装置の開発と脳卒中片麻痺患者への使用経験. 理学療法学, 31 : 29-35, 2004
7) オージー技研株式会社HP (https://www.og-wellness.jp/product/medical/gd611-612#p-mode)
8) 「脳卒中治療ガイドライン 2021」 (日本脳卒中学会 脳卒中ガイドライン委員会, 他/編), pp263-264, 協和企画, 2021
9) Woodford H & Price C : EMG biofeedback for the recovery of motor function after stroke. Cochrane Database Syst Rev, CD004585, 2007
10) Dost Surucu G & Tezen O : The effect of EMG biofeedback on lower extremity functions in hemiplegic patients. Acta Neurol Belg, 121 : 113-118, 2021
11) de Kroon JR, et al : Electrical stimulation of the upper limb in stroke : stimulation of the extensors of the hand vs. alternate stimulation of flexors and extensors. Am J Phys Med Rehabil, 83 : 592-600, 2004
12) Ramachandran VS & Rogers-Ramachandran D : Synaesthesia in phantom limbs induced with mirrors. Proc Biol Sci, 263 : 377-386, 1996
13) Yavuzer G, et al : Mirror therapy improves hand function in subacute stroke : a randomized controlled trial. Arch Phys Med Rehabil, 89 : 393-398, 2008
14) Dohle C, et al : Mirror therapy promotes recovery from severe hemiparesis : a randomized controlled trial. Neurorehabil Neural Repair, 23 : 209-217, 2009
15) Kojima K, et al : Feasibility study of a combined treatment of electromyography-triggered neuromuscular stimulation and mirror therapy in stroke patients : a randomized crossover trial. Neuro Rehabilitation, 34 : 235-244, 2014
16) Yamaguchi T, et al : Effects of integrated volitional control electrical stimulation (IVES) on upper extremity function in chronic stroke. Keio J Med, 60 : 90-95, 2011
17) Hara Y, et al : The effects of electromyography-controlled functional electrical stimulation on upper extremity function and cortical perfusion in stroke patients. Clin Neurophysiol, 124 : 2008-2015, 2013
18) Yip SL & Ng GY : Biofeedback supplementation to physiotherapy exercise programme for rehabilitation of patellofemoral pain syndrome : a randomized controlled pilot study. Clin Rehabil, 20 : 1050-1057, 2006
19) Akkaya N, et al : Efficacy of electromyographic biofeedback and electrical stimulation following arthroscopic partial meniscectomy : a randomized controlled trial. Clin Rehabil, 26 : 224-236, 2012
20) Christanell F, et al : The influence of electromyographic biofeedback therapy on knee extension following anterior cruciate ligament reconstruction : a randomized controlled trial. Sports Med Arthrosc Rehabil Ther Technol, 4 : 41, 2012
21) Shan AS & Youssef EF : Effects of adding biofeedback training to active exercises after total knee arthroplasty. Journal of Musculoskeletal Research, 17 : 1-10, 2014
22) Donaldson S, et al : Randomized study of the application of single motor unit biofeedback training to chronic low back pain. J Occup Rehabil, 4 : 23-37, 1994
23) Flor H & Birbaumer N : Comparison of the efficacy of electromyographic biofeedback, cognitive-behavioral therapy, and conservative medical interventions in the treatment of chronic musculoskeletal pain. J Consult Clin Psychol, 61 : 653-658, 1993
24) Asfour SS, et al : Biofeedback in back muscle strengthening. Spine (Phila Pa 1976), 15 : 510-513, 1990
25) Floyd WF & Silver PH : Function of erectores spinae in flexion of the trunk. Lancet, 257 : 133-134, 1951
26) Triano JJ & Schultz AB : Correlation of objective measure of trunk motion and muscle function with low-back disability ratings. Spine (Phila Pa 1976), 12 : 561-565, 1987
27) Sihvonen T, et al : Functional changes in back muscle activity correlate with pain intensity and prediction of low back pain during pregnancy. Arch Phys Med Rehabil, 79 : 1210-1212, 1998
28) Ahern DK, et al : Correlation of chronic low-back pain behavior and muscle function examination of the flexion-relaxation response. Spine (Phila Pa 1976), 15 : 92-95, 1990
29) Geisser ME, et al : A meta-analytic review of surface electromyography among persons with low back pain and normal, healthy controls. J Pain, 6 : 711-726, 2005
30) Neblett R, et al : Correcting abnormal flexion-relaxation in chronic lumbar pain : responsiveness to a new biofeedback training protocol. Clin J Pain, 26 : 403-409, 2010
31) Moore A, et al : The efficacy of surface electromyographic biofeedback assisted stretching for the treatment of chronic low back pain : a case-series. J Bodyw Mov Ther, 19 : 8-16, 2015
32) Abrams P, et al : Fourth International Consultation on Incontinence Recommendations of the International Scientific Committee : Evaluation and treatment of urinary incontinence, pelvic organ prolapse, and fecal incontinence. Neurourol Urodyn, 29 : 213-240, 2010
33) Hsu LF, et al : Beneficial effects of biofeedback-assisted pelvic floor muscle training in patients with urinary incontinence after radical prostatectomy : A systematic review and metaanalysis. Int J Nurs Stud, 60 : 99-111, 2016
P.286 掲載の参考文献
1) 「褥瘡予防・管理ガイドライン (第4版) 」 (http://www.jspu.org/jpn/info/pdf/guideline4.pdf), 日本褥瘡学会, 2015
2) Kawasaki L, et al : The mechanisms and evidence of efficacy of electrical stimulation for healing of pressure ulcer : a systematic review. Wound Repair Regen, 22 : 161-173, 2014
3) Yoshikawa Y, et al : Monophasic Pulsed Microcurrent of 1-8 Hz Increases the Number of Human Dermal Fibroblasts. Progress in Rehabilitation Medicine, 1 : 20160005, 2016
4) ELECTROPHYSICAL AGENTS-Contraindications And Precautions : An Evidence-Based Approach To Clinical Decision Making In Physical Therapy. Physiother Can, 62 : 1-80, 2010
5) 吉川義之, 他 : 褥瘡部を陰極とした微弱直流電流刺激療法による創の縮小効果. 理学療法学, 40 : 200-206, 2013
P.300 掲載の参考文献
1) 日本皮膚科学会ガイドライン : 創傷・褥瘡・熱傷ガイドライン- 5 : 下腿潰瘍・下肢静脈瘤診療ガイドライン. 日皮会誌, 127 : 2239-2259, 2017
2) 孟真, 他 : プラクティカル・フレボロジー 圧迫療法と圧迫圧. 静脈学, 27 : 45-51, 2016
3) Zasadzka E, et al : Comparison of the effectiveness of complex decongestive therapy and compression bandaging as a method of treatment of lymphedema in the elderly. Clin Interv Aging, 13 : 929-934, 2018
4) Gloviczki P, et al : The care of patients with varicose veins and associated chronic venous diseases : clinical practice guidelines of the Society for Vascular Surgery and the American Venous Forum. J Vasc Surg, 53 : 2S-48S, 2011
5) 「肺血栓塞栓症および深部静脈血栓症の診断, 治療, 予防に関するガイドライン (2017年改訂版) 」 (日本循環器学会, 他/合同研究班参加学会, 伊藤正明/班長), 2018
6) Kapp S, et al : The clinical effectiveness of two compression stocking treatments on venous leg ulcer recurrence : a randomized controlled trial. Int J Low Extrem Wounds, 12 : 189-198, 2013
7) Nelson EA, et al : Prevention of recurrence of venous ulceration : randomized controlled trial of class 2 and class 3 elastic compression. J Vasc Surg, 44 : 803-808, 2006
8) Vandongen YK & Stacey MC : Graduated compression elastic stockings reduce lipodermatosclerosis and ulcer recurrence. Phlebology, 15 : 33-37, 2000
9) Miller LK, et al : Effectiveness of edema management techniques for subacute hand edema : A systematic review. J Hand Ther, 30 : 432-446, 2017
10) Griffin JW, et al : Reduction of chronic posttraumatic hand edema : a comparison of high voltage pulsed current, intermittent pneumatic compression, and placebo treatments. Phys Ther, 70 : 279-286, 1990
11) 第II部 医療関連機器別予防・管理 第1章 静脈血栓塞栓症予防用弾性ストッキング, および間欠的空気圧迫装置. 「MDRPUベストプラクティス医療関連機器圧迫創傷の予防と管理」 (一般社団法人 日本褥瘡学会/編), pp24-38, 照林社, 2016
12) 「新 弾性ストッキング・コンダクター 静脈疾患・リンパ浮腫における圧迫療法の基礎と臨床応用」 (平井正文, 他/編), へるす出版, 2010
13) 臨床応用編. 「データとケースレポートから見た圧迫療法の基礎と臨床」 (平井正文/著), pp45-113, メディカルトリビューン, 2013
14) Mosti G, et al : Compression therapy in mixed ulcers increases venous output and arterial perfusion. J Vasc Surg, 55 : 122-128, 2012
15) 杉山悟, 他 : 弾性ストッキングの合併症に関するサーベイ. 静脈学, 25 : 403-409, 2014
17) 「Guideline for management of wounds in patients with lower-extremity arterial disease」 (Wound, Ostomy and Continence Nurses Society : VH.Interventions), pp72-119, Wound, Ostomy and Continence Nurses Society, 2014
18) 戸田光紀, 陳隆明 : 2 最新の周術期管理. J Rehabil Med, 55 : 378-383, 2018
19) 木村浩彰 : 教育講座 切断・断端管理と義足の適応. Jpn J Rehabil Med, 55 : 242-248, 2018
20) Raetz J, et al : Varicose Veins : Diagnosis and Treatment. Am Fam Physician, 99 : 682-688, 2019
徳田裕 : 4-4 間欠的 (パルス) 空気圧迫装置. 「シンプル理学療法学シリーズ 物理療法学テキスト 改訂第3版」 (細田多穂/監, 木村貞治, 他/編), pp322-332, 南江堂, 2021
金原一宏 : 第13章 マッサージ療法. 「イラストでわかる物理療法」 (上杉雅之/監, 杉元雅晴, 菅原 仁/編), pp167-185, 医歯薬出版, 2019
P.313 掲載の参考文献
1) 「理学療法テキスト 物理療法学・実習 (15 レクチャーシリーズ) 」 (石川 朗/総編集, 日高正巳, 玉木彰/責任編集), 中山書店, 2014
2) 「Diagnostic Imaging : Spine」 (Ross JS, et al/eds), AMIRSYS, 2004
3) Larsson U, et al : Auto-traction for treatment of lumbago-sciatica. A multicentre controlled investigation. Acta Orthop Scand, 51 : 791-798, 1980
4) 「Traction for low-back pain with or without sciatica (Review) 」 (Clarke JA, et al), The Cochrane Collaboration, 2010
5) Childs JD, et al : Low back pain : do the right thing and do it now. J Orthop Sports Phys Ther, 42 : 296-299, 2012
6) 「標準整形外科学 第12版」 (松野丈夫, 中村利孝/総編集, 馬場久敏, 他/編), 医学書院, 2014
7) 「グラント解剖学図譜 第7版」 (Agur AM, Dalley AF/著, 坂井建雄/監訳, 小林靖, 他/訳), 医学書院, 2016
8) 「Physical Agents in Rehabilitation : From Research to Practice, 4th edition」 (Cameron MH), Saunders, 2012
9) 日本整形外科学会診断・評価等基準委員会 腰痛疾患および頚部脊髄症小委員会 : 日本整形外科学会腰痛評価質問票 JOA Back Pain Evaluation Questionnaire (JOABPEQ) /日本整形外科学会頚部脊髄症評価質問票 JOA Cervical Myelopathy Evaluation Questionnaire (JOACMEQ) 作成報告書 (平成19年4月16日). 日整会誌, 82 : 62-86, 2008
10) トライオール社HP (http://www.try-all-jpn.com/neutone/neutone.html)
P.323 掲載の参考文献
1) Souron R, et al : Acute and chronic neuromuscular adaptations to local vibration training. Eur J Appl Physiol, 117 : 1939-1964, 2017
2) Pearson KG & Godon JE (関和彦/訳) : 脊髄反射. 「カンデル神経科学 第2版」 (宮下保司/監, Kandel ER, 他/編), メディカル・サイエンス・インターナショナル, p781, 2022
3) Winstein CJ, et al : Guidelines for Adult Stroke Rehabilitation and Recovery : A Guideline for Healthcare Professionals From the American Heart Association/American Stroke Association. Stroke, 47 : e98-e169, 2016
4) Moggio L, et al : Vibration therapy role in neurological diseases rehabilitation : an umbrella review of systematic reviews. Disabil Rehabil, 44 : 5741-5749, 2022
5) Nielsen J, et al : Changes in transmission across synapses of Ia afferents in spastic patients. Brain, 118 (Pt 4) : 995-1004, 1995
6) Kumru H, et al : Effects of different vibration frequencies on spinal cord reflex circuits and thermoalgesic perception. J Musculoskelet Neuronal Interact, 21 : 533-541, 2021
7) Noma T, et al : Anti-spastic effects of the direct application of vibratory stimuli to the spastic muscles of hemiplegic limbs in post-stroke patients : a proof-of-principle study. J Rehabil Med, 44 : 325-330, 2012
8) Kai S & Nakabayashi K : 10. Evoked EMG Makes Measurement of Muscle Tone Possible by Analysis of the H/M Ratio.「Electrodiagnosis in New Frontiers of Clinical Research」 (Turker H/ed), pp195-212, Intechopen, 2013
9) Wang H, et al : Focal Muscle Vibration for Stroke Rehabilitation : A Review of Vibration Parameters and Protocols. Appl Sci, 10 : 8270, 2020
10) Miyara K, et al : Effect of whole body vibration on spasticity in hemiplegic legs of patients with stroke. Top Stroke Rehabil, 25 : 90-95, 2018
11) Naito E, et al : Illusory arm movements activate cortical motor areas : a positron emission tomography study. J Neurosci, 19 : 6134-6144, 1999
12) Naito E : Sensing limb movements in the motor cortex : how humans sense limb movement. Neuroscientist, 10 : 73-82, 2004
13) Roll R, et al : Illusory movements prevent cortical disruption caused by immobilization. Neuroimage, 62 : 510-519, 2012
14) Imai R, et al : Influence of illusory kinesthesia by vibratory tendon stimulation on acute pain after surgery for distal radius fractures : a quasi-randomized controlled study. Clin Rehabil, 30 : 594-603, 2016
15) 今井亮太, 他 : 橈骨遠位端骨折術後患者に対する腱振動刺激による運動錯覚が急性疼痛に与える効果. -手術後翌日からの早期介入-. 理学療法学, 42 : 1-7, 2015
16) Dong Y, et al : Whole Body Vibration Exercise for Chronic Musculoskeletal Pain : A Systematic Review and Meta-analysis of Randomized Controlled Trials. Arch Phys Med Rehabil, 100 : 2167-2178, 2019
17) Lu L, et al : Effects of different exercise training modes on muscle strength and physical performance in older people with sarcopenia : a systematic review and meta-analysis. BMC Geriatr, 21 : 708, 2021
18) Yang X, et al : The effect of whole body vibration on balance, gait performance and mobility in people with stroke : a systematic review and meta-analysis. Clin Rehabil, 29 : 627-638, 2015
19) Park YJ, et al : Comparison of the Effectiveness of Whole Body Vibration in Stroke Patients : A Meta-Analysis. Biomed Res Int, 2018 : 5083634, 2018
20) Marazzi S, et al : Effects of vibratory stimulation on balance and gait in Parkinson's disease : a systematic review and meta-analysis. Eur J Phys Rehabil Med, 57 : 254-264, 2021
21) Heilman KM & Valenstein E : Mechanisms underlying hemispatial neglect. Ann Neurol, 5 : 166-170, 1979
22) Schindler I, et al : Neck muscle vibration induces lasting recovery in spatial neglect. J Neurol Neurosurg Psychiatry, 73 : 412-419, 2002
23) Ceyte H, et al : Perceptual post-effects of left neck muscle vibration with visuo-haptic feedback in healthy individuals : A potential approach for treating spatial neglect. Neurosci Lett, 743 : 135557, 2021
24) Kamada K, et al : Effects of 5 minutes of neck-muscle vibration immediately before occupational therapy on unilateral spatial neglect. Disabil Rehabil, 33 : 2322-2328, 2011
25) Park SY, et al : Effects of whole body vibration training on body composition, skeletal muscle strength, and cardiovascular health. J Exerc Rehabil, 11 : 289-295, 2015
26) Benedetti MG, et al : The Effectiveness of Physical Exercise on Bone Density in Osteoporotic Patients. Biomed Res Int, 2018 : 4840531, 2018
27) Raschilas F & Blain H : What can we think about whole-body-vibration in elderly people?. Presse Med, 39 : 1032-1037, 2010
28) Burstrom L, et al : Whole-body vibration and the risk of low back pain and sciatica : a systematic review and meta-analysis. Int Arch Occup Environ Health, 88 : 403-418, 2015
29) Collado-Mateo D, et al : Effects of Whole-Body Vibration Therapy in Patients with Fibromyalgia : A Systematic Literature Review. Evid Based Complement Alternat Med, 2015 : 719082, 2015
30) Brooke-Wavell K & Mansfield NJ : Risks and benefits of whole body vibration training in older people. Age Ageing, 38 : 254-255, 2009
P.334 掲載の参考文献
1) Dymarek R, et al : Shock Waves 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
2) Kiessling MC, et al : Radial extracorporeal shock wave treatment harms developing chicken embryos. Sci Rep, 5 : 8281, 2015
3) 拡散型ショックウェーブフィジオショックマスター SHM-S2 (https://www.sakaimed.co.jp/rehabilitation/physio-therapy/pressure_wave/physioshockmaster/), 酒井医療社HP
4) McClure S & Dorfmuller C : Extracorporeal shock wave therapy : Theory and equipment. Clinical Techniques in Equine Practice, 2 : 348-357, 2003
5) Csaszar NB, et al : Radial Shock Wave Devices Generate Cavitation. PLoS One, 10 : e0140541, 2015
6) Speed CA : Extracorporeal shock-wave therapy in the management of chronic soft-tissue conditions. J Bone Joint Surg Br, 86 : 165-171, 2004
7) Babatunde OO, et al : Comparative effectiveness of treatment options for plantar heel pain : a systematic review with network meta-analysis. Br J Sports Med, 53 : 182-194, 2019
8) Xiong Y, et al : Comparison of efficacy of shock-wave therapy versus corticosteroids in plantar fasciitis : a meta-analysis of randomized controlled trials. Arch Orthop Trauma Surg, 139 : 529-536, 2019
9) Zhang J, et al : Comparative Efficacy and Patient-Specific Moderating Factors of Nonsurgical Treatment Strategies for Frozen Shoulder : An Updated Systematic Review and Network Meta-analysis. Am J Sports Med, 49 : 1669-1679, 2021
10) Zhang R, et al : Extracorporeal Shockwave Therapy as an Adjunctive Therapy for Frozen Shoulder : A Systematic Review and Meta-analysis. Orthop J Sports Med, 10 : 23259671211062222, 2022
11) Ma H, et al : The efficacy and safety of extracorporeal shockwave therapy in knee osteoarthritis : A systematic review and meta-analysis. Int J Surg, 75 : 24-34, 2020
12) Avendano-Coy J, et al : Extracorporeal shockwave therapy improves pain and function in subjects with knee osteoarthritis : A systematic review and meta-analysis of randomized clinical trials. Int J Surg, 82 : 64-75, 2020
13) Lange T, et al : Effectiveness of Radial Extracorporeal Shockwave Therapy in Patients with Acute Low Back Pain-Randomized Controlled Trial. J Clin Med, 10 : 5569, 2021
14) Kim SH, et al : Effect of Radial Extracorporeal Shock Wave Therapy on Hemiplegic Shoulder Pain Syndrome. Ann Rehabil Med, 40 : 509-519, 2016
15) Takahashi N, et al : Second application of low-energy shock waves has a cumulative effect on free nerve endings. Clin Orthop Relat Res, 443 : 315-319, 2006
16) Ohtori S, et al : Shock wave application to rat skin induces degeneration and reinnervation of sensory nerve fibres. Neurosci Lett, 315 : 57-60, 2001
17) Tenforde AS, et al : Best practices for extracorporeal shockwave therapy in musculoskeletal medicine : Clinical application and training consideration. PM R, 14 : 611-619, 2022
18) Berta L, et al : Extracorporeal shock waves enhance normal fibroblast proliferation in vitro and activate mRNA expression for TGF-beta1 and for collagen types I and III. Acta Orthop, 80 : 612-617, 2009
19) 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
20) Reilly JM, et al : Effect of Shockwave Treatment for Management of Upper and Lower Extremity Musculoskeletal Conditions : A Narrative Review. PM R, 10 : 1385-1403, 2018
21) Cabanas-Valdes R, et al : The effectiveness of extracorporeal shock wave therapy for improving upper limb spasticity and functionality in stroke patients : a systematic review and meta-analysis. Clin Rehabil, 34 : 1141-1156, 2020
22) Cabanas-Valdes R, et al : The effectiveness of extracorporeal shock wave therapy to reduce lower limb spasticity in stroke patients : a systematic review and meta-analysis. Top Stroke Rehabil, 27 : 137-157, 2020
23) Manganotti P & Amelio E : Long-term effect of shock wave therapy on upper limb hypertonia in patients affected by stroke. Stroke, 36 : 1967-1971, 2005
24) Wu YT, et al : Extracorporeal Shock Waves Versus Botulinum Toxin Type A in the Treatment of Post-stroke Upper Limb Spasticity : A Randomized Noninferiority Trial. Arch Phys Med Rehabil, 99 : 2143-2150, 2018
25) Yang E, et al : Recent Advances in the Treatment of Spasticity : Extracorporeal Shock Wave Therapy. J Clin Med, 10 : 4723, 2021
26) 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
27) Kenmoku T, et al : Extracorporeal shock wave treatment can selectively destroy end plates in neuromuscular junctions. Muscle Nerve, 57 : 466-472, 2018
28) Sohn MK, et al : Spasticity and electrophysiologic changes after extracorporeal shock wave therapy on gastrocnemius. Ann Rehabil Med, 35 : 599-604, 2011
29) 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, 2020
30) Mori L, et al : Shock waves in the treatment of muscle hypertonia and dystonia. Biomed Res Int, 2014 : 637450, 2014
31) Oh JH, et al : Duration of Treatment Effect of Extracorporeal Shock Wave on Spasticity and Subgroup-Analysis According to Number of Shocks and Application Site : A Meta-Analysis. Ann Rehabil Med, 43 : 163-177, 2019
32) International Society for Medical Shockwave Treatment (ISMST) (https://www.shockwavetherapy.org/about-eswt/), 2022年8月閲覧

最近チェックした商品履歴

Loading...