臨床の疑問に答える軟部組織の障害と理学療法

出版社: 羊土社
著者:
発行日: 2023-04-25
分野: 医療技術  >  リハビリ技術
ISBN: 9784758102650
電子書籍版: 2023-04-25 (第1刷)
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豊富な画像・イラスト・動画で,軟部組織の解剖や病態をわかりやすく解説,障害部位の特定や機能評価,適切な治療法の選択・実施までが身につく!現場でよくある「困った」を解消する,臨床ですぐに役立つ1冊!

目次

  • 第1章 総論
     おさえておきたい軟部組織障害の基礎知識

    第2章 頸胸部
     1 頸胸部の軟部組織障害と機能解剖
     2 軟部組織障害部位の特定と機能評価
     3 組織特性を考慮した理学療法プログラムの要点
     4 徒手療法・物理療法・運動療法の選択

    第3章 肩
     1 肩の軟部組織障害と機能解剖
     2 軟部組織障害部位の特定と機能評価
     3 病態や組織特性を考慮した理学療法プログラムのキーポイント
     4 治療(物理療法,徒手療法,運動療法)

    第4章 肘
     1 肘の軟部組織障害と機能解剖
     2 軟部組織障害部位の特定と機能評価
     3 組織特性を考慮した理学療法プログラムの要点
     4 徒手療法・物理療法・運動療法の選択

    第5章 手
     1 手の軟部組織障害と機能解剖
     2 軟部組織障害部位の特定と機能評価
     3 組織特性を考慮した理学療法プログラムの要点
     4 徒手療法・物理療法・運動療法の選択

    第6章 腰殿部
     1 腰殿部の軟部組織障害と機能解剖
     2 軟部組織障害部位の特定と機能評価
     3 組織特性を考慮した理学療法プログラムの要点
     4 徒手療法・運動療法の選択

    第7章 股関節前方
     1 股関節前方の軟部組織障害と機能解剖
     2 軟部組織障害部位の特定と機能評価
     3 理学療法プログラムの要点
     4 徒手療法・運動療法の選択

    第8章 膝
     1 膝前面の軟部組織障害と機能解剖
     2 軟部組織障害部位の特定と機能評価
     3 組織特性を考慮した理学療法プログラムの要点
     4 徒手療法・物理療法・運動療法の選択

    第9章 大腿下腿部
     1 大腿下腿部の軟部組織障害と機能解剖
     2 軟部組織傷害部位の特定と機能評価
     3 組織特性を考慮した理学療法プログラムの要点
     4 徒手治療・物理療法・運動療法の選択

    第10章 足
     1 足の軟部組織障害と機能解剖
     2 足の軟部組織障害部位の特定と機能評価
     3 足の組織特性を考慮した理学療法プログラムの要点
     4 徒手療法・物理療法・運動療法の選択

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1章 総論

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第2章 頸胸部

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第3章 肩

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4) Bannuru RR, et al : High-energy extracorporeal shock-wave therapy for treating chronic calcific tendinitis of the shoulder : a systematic review. Ann Intern Med, 160 : 542-549, 2014
 
5) Schmitz C, et al : Efficacy and safety of extracorporeal shock wave therapy for orthopedic conditions : a systematic review on studies listed in the PEDro database. Br Med Bull, 116 : 115-138, 2015
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6) Kim MS, et al : Diagnosis and treatment of calcific tendinitis of the shoulder. Clin Shoulder Elb, 23 : 210-216, 2020
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7) Page MJ, et al : Manual therapy and exercise for adhesive capsulitis (frozen shoulder). Cochrane Database Syst Rev : CD011275, 2014
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8) Diercks RL & Stevens M : Gentle thawing of the frozen shoulder : a prospective study of supervised neglect versus intensive physical therapy in seventy-seven patients with frozen shoulder syndrome followed up for two years. J Shoulder Elbow Surg, 13 : 499-502, 2004
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9) Muraki T, et al : The effect of cyclic loading simulating oscillatory joint mobilization on the posterior capsule of the glenohumeral joint : a cadaveric study. J Orthop Sports Phys Ther, 41 : 311-318, 2011
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10) Moccia D, et al : Fascial bundles of the infraspinatus fascia : anatomy, function, and clinical considerations. J Anat, 228 : 176-183, 2016
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11) McClure P, et al : A randomized controlled comparison of stretching procedures for posterior shoulder tightness. J Orthop Sports Phys Ther, 37 : 108-114, 2007
 
12) Park KM, et al : Effect of isometric horizontal abduction on pectoralis major and serratus anterior EMG activity during three exercises in subjects with scapular winging. J Electromyogr Kinesiol, 23 : 462-468, 2013
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13) Castelein B, et al : Superficial and Deep Scapulothoracic Muscle Electromyographic Activity During Elevation Exercises in the Scapular Plane. J Orthop Sports Phys Ther, 46 : 184-193, 2016
 
14) Dillman CJ, et al : Biomechanical differences of open and closed chain exercises with respect to the shoulder. J Sport Rehabil. 3 : 228-38, 1994
 
15) Frank C, et al. Dynamic neuromuscular stabilization & sports rehabilitation. Int J Sports Phys Ther, 8 : 62, 2013
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16) Khazzam MS, et al : Sleep Quality in Patients With Rotator Cuff Disease. J Am Acad Orthop Surg, 26 : 215-222, 2018
 
17) Werner CM, et al : Subacromial pressures vary with simulated sleep positions. J Shoulder Elbow Surg, 19 : 989-993, 2010
 
「スタンフォード式疲れない体」 (山田知生/著), サンマーク出版, 2018
 

第4章 肘

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3) 「末梢神経絞扼障害 : しびれと痛み」 (廣谷速人/著), 金原出版, 1997
 
4) Cerezal L, et al : Elbow synovial fold syndrome. AJR Am J Roentgenol, 201 : W88-W96, 2013
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7) Rio E, et al : Sensory Processing in People With and Without Tendinopathy : A Systematic Review With Meta-analysis of Local, Regional, and Remote Sites in Upper- and Lower-Limb Conditions. J Orthop Sports Phys Ther, 51 : 12-26, 2021
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2) Clarke AW, et al : Lateral elbow tendinopathy : correlation of ultrasound findings with pain and functional disability. Am J Sports Med, 38 : 1209-1214, 2010
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3) Smidt N, et al : Lateral epicondylitis in general practice : course and prognostic indicators of outcome. J Rheumatol, 33 : 2053-2059, 2006
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4) Waugh EJ, et al : Factors associated with prognosis of lateral epicondylitis after 8 weeks of physical therapy. Arch Phys Med Rehabil, 85 : 308-318, 2004
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6) Coombes BK, et al : Management of Lateral Elbow Tendinopathy : One Size Does Not Fit All. J Orthop Sports Phys Ther, 45 : 938-949, 2015
 
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1) Bunata RE, et al : Anatomic factors related to the cause of tennis elbow. J Bone Joint Surg Am, 89 : 1955-1963, 2007
 
2) Chourasia AO, et al : Relationships between biomechanics, tendon pathology, and function in individuals with lateral epicondylosis. J Orthop Sports Phys Ther, 43 : 368-378, 2013
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3) Ryan M, et al : Should We Care About Tendon Structure? The Disconnect Between Structure and Symptoms in Tendinopathy. J Orthop Sports Phys Ther, 45 : 823-825, 2015
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4) Cook JL, et al : Revisiting the continuum model of tendon pathology : what is its merit in clinical practice and research? Br J Sports Med, 50 : 1187-1191, 2016
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2) Yoon SY, et al : Does the Type of Extracorporeal Shock Therapy Influence Treatment Effectiveness in Lateral Epicondylitis? A Systematic Review and Meta-analysis. Clin Orthop Relat Res, 478 : 2324-2339, 2020
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3) Shirato R, et al : Effect of simultaneous stretching of the wrist and finger extensors for lateral epicondylitis : a gross anatomical study of the tendinous origins of the extensor carpi radialis brevis and extensor digitorum communis. J Orthop Sci, 20 : 1005-1011, 2015
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4) Loew LM, et al : Deep transverse friction massage for treating lateral elbow or lateral knee tendinitis. Cochrane Database Syst Rev : CD003528, 2014
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5) Herd CR & Meserve BB : A systematic review of the effectiveness of manipulative therapy in treating lateral epicondylalgia. J Man Manip Ther, 16 : 225-237, 2008
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6) Drechsler W, et al : A comparison of two treatment regimens for lateral epicondylitis : a randomized trial of clinical interventions. J Sport Rehabil,6 : 226-234, 1997
 
7) Dabholkar AS, et al : Neural tissue mobilisation using ULTT2b and radial head mobilisation v/s exercise programme in lateral epicondylitis. Indian J Occup Ther, 7 : 247-252, 2013
 
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9) Welsh P : Tendon neuroplastic training for lateral elbow tendinopathy : 2 case reports. J Can Chiropr Assoc, 62 : 98-104, 2018
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10) Tyler TF, et al : Addition of isolated wrist extensor eccentric exercise to standard treatment for chronic lateral epicondylosis : a prospective randomized trial. J Shoulder Elbow Surg, 19 : 917-922, 2010
 
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第5章 手

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3) Esplugas M, et al : Role of muscles in the stabilization of ligament-deficient wrists. J Hand Ther, 29 : 166-174, 2016
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5) Rettig AC : Athletic injuries of the wrist and hand : part II : overuse injuries of the wrist and traumatic injuries to the hand. Am J Sports Med, 32 : 262-273, 2004
 
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3) Tay SC, et al : The "ulnar fovea sign" for defining ulnar wrist pain : an analysis of sensitivity and specificity. J Hand Surg Am, 32 : 438-444, 2007
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4) Nakamura R, et al : The ulnocarpal stress test in the diagnosis of ulnar-sided wrist pain. J Hand Surg Br, 22 : 719-723, 1997
 
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7) Massy-Westropp N, et al : A systematic review of the clinical diagnostic tests for carpal tunnel syndrome. J Hand Surg Am, 25 : 120-127, 2000
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8) Buehler MJ & Thayer DT : The elbow flexion test. A clinical test for the cubital tunnel syndrome. Clin Orthop Relat Res : 213-216, 1988
 
9) Goldman SB, et al : Analysis of clinical motor testing for adult patients with diagnosed ulnar neuropathy at the elbow. Arch Phys Med Rehabil, 90 : 1846-1852, 2009
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2) Ryan M, et al : Should We Care About Tendon Structure? The Disconnect Between Structure and Symptoms in Tendinopathy. J Orthop Sports Phys Ther, 45 : 823-825, 2015
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3) Kakar S, Garcia-Elias M. The "Four-Leaf Clover" Treatment Algorithm : A Practical Approach to Manage Disorders of the Distal Radioulnar Joint. J Hand Surg Am. 2016 Apr ; 41 (4) : 551-64. Epub 2016/03/06.
 
4) Harley BJ, et al : Force variations in the distal radius and ulna : effect of ulnar variance and forearm motion. J Hand Surg Am, 40 : 211-216, 2015
 
5) Nakamura T & Makita A : The proximal ligamentous component of the triangular fibrocartilage complex. J Hand Surg Br, 25 : 479-486, 2000
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6) Garcia-Elias M : Tendinopathies of the Extensor Carpi Ulnaris. Handchir Mikrochir Plast Chir, 47 : 281-289, 2015
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7) Hall B, et al : Investigating the effectiveness of full-time wrist splinting and education in the treatment of carpal tunnel syndrome : a randomized controlled trial. Am J Occup Ther, 67 : 448-459, 2013
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3) Fernandez-de-Las Penas C, et al : Manual Physical Therapy Versus Surgery for Carpal Tunnel Syndrome : A Randomized Parallel-Group Trial. J Pain, 16 : 1087-1094, 2015
 
4) Basson A, et al : The Effectiveness of Neural Mobilization for Neuromusculoskeletal Conditions : A Systematic Review and Meta-analysis. J Orthop Sports Phys Ther, 47 : 593-615, 2017
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5) Maddali Bongi S, et al : A manual therapy intervention improves symptoms in patients with carpal tunnel syndrome : a pilot study. Rheumatol Int, 33 : 1233-1241, 2013
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6) Crisco JJ, et al : In vivo radiocarpal kinematics and the dart thrower's motion. J Bone Joint Surg Am, 87 : 2729-2740, 2005
 
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「手の運動を学ぶ」 (矢崎潔, 他/著), 三輪書店, 2017
 

第6章 腰殿部

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5) 「運動療法のための機能解剖学的触診技術 下肢・体幹 改訂第2版」 (青木隆明/監, 林典雄/著), pp166-171, メジカルビュー社, 2012
 
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3) Smith SA, et al : Straight leg raising. Anatomical effects on the spinal nerve root without and with fusion. Spine (Phila Pa 1976), 18 : 992-999, 1993
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1) Goddard MD & Reid JD : Movements induced by straight leg raising in the lumbo-sacral roots, nerves and plexus, and in the intrapelvic section of the sciatic nerve. J Neurol Neurosurg Psychiatry, 28 : 12-18, 1965
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2) Smith SA, et al : Straight leg raising. Anatomical effects on the spinal nerve root without and with fusion. Spine (Phila Pa 1976), 18 : 992-999, 1993
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3) 國谷洋, 他 : 上殿皮神経絞扼の解剖学的研究. J spine Res, 2 : 1028-1031, 2011
Medical*Online

第7章 股関節前方

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4) 江玉睦明, 他 : 大腿直筋の筋・腱膜構造の特徴- 肉ばなれ発生部位との関連について-, 新潟県厚生連医誌, 21 : 34-37, 2012
 
5) 「筋損傷の画像診断」 (奥脇透/著), pp2-16, 文光堂, 2021
 
6) 篠原靖司, 熊井司 : 腱・靱帯付着部症の解剖学的要因と病理. 整・災害, 56 : 1337-1344, 2013
 
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2) Bohannon RW, et al : Relationship of pelvic and thigh motions during unilateral and bilateral hip flexion. Phys Ther, 65 : 1501-1504, 1985
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3) Tully EA, et al : Lumbofemoral rhythm during hip flexion in young adults and children. Spine (Phila Pa 1976), 27 : E432-E440, 2002
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4) 中原一郎, 他 : 股関節の表面モデルを用いた股関節形状および骨性可動域の男女差評価. 整形・災害外科, 55 : 967-974, 2012
 
5) 「林典雄の運動器疾患の機能解剖学に基づく評価と解釈 下肢編」 (林典雄/監, 林典雄, 岸田敏嗣/著), pp40-64, 運動と医学の出版社, 2018
 
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宮武和馬, 他 : 超音波ガイド下インターベンションと理学療法の融合. 理学療法ジャーナル, 54 : 1002-1009, 2020
 
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4) 宮武和馬, 他 : 超音波ガイド下インターベンションと理学療法の融合. 理学療法ジャーナル, 54 : 1002-1009, 2020
 
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P.185 掲載の参考文献
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第8章 膝

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3) Wyndow N, et al : Foot and ankle characteristics and dynamic knee valgus in individuals with patellofemoral osteoarthritis. J Foot Ankle Res, 11 : 65, 2018
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4) Bishop BN, et al : Electromyographic Analysis of Gluteus Maximus, Gluteus Medius, and Tensor Fascia Latae During Therapeutic Exercises With and Without Elastic Resistance. Int J Sports Phys Ther, 13 : 668-675, 2018
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5) Dill KE, et al : Altered knee and ankle kinematics during squatting in those with limited weight-bearing-lunge ankle-dorsiflexion range of motion. J Athl Train, 49 : 723-732, 2014
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6) Youdas JW, et al : The influence of gender and age on hamstring muscle length in healthy adults. J Orthop Sports Phys Ther, 35 : 246-252, 2005
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11) Willson JD & Davis IS : Utility of the frontal plane projection angle in females with patellofemoral pain. J Orthop Sports Phys Ther, 38 : 606-615, 2008
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第9章 大腿下腿部

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13) 岡戸敦男, 小林寛和 : シンスプリントに対する的確・迅速な臨床推論のポイント. 理学療法, 28 : 230-235, 2011
 
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第10章 足

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3) Yoon JY, et al : Three-dimensional analysis of foot motion after uphill walking with mobilization with movement using tape applied to the talocrural joint in women with limited ankle dorsiflexion. Foot Ankle Int, 35 : 1217-1225, 2014
 
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5) Kaminski TW, et al : National Athletic Trainers' Association position statement : conservative management and prevention of ankle sprains in athletes. J Athl Train, 48 : 528-545, 2013
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