スポーツ理学療法プラクティス 急性期治療とその技法

出版社: 文光堂
著者:
発行日: 2017-09-07
分野: 医療技術  >  リハビリ技術
ISBN: 9784830645600
電子書籍版: 2017-09-07 (第1版第1刷)
書籍・雑誌
≪全国送料無料でお届け≫
取寄せ目安:8~14営業日

5,500 円(税込)

購入する
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

5,500 円(税込)

購入する

商品紹介

[スポーツ理学療法プラクティス]は,医療現場・競技現場でスポーツ理学療法に求められる,アドバンスな技術・知識を解説するシリーズです.スポーツ外傷・障害の各種評価方法(理学的検査,医用画像,生化学検査,筋電図,動作分析,フィールドテスト,モニタリング)と,その結果の解釈のしかたを解説.スポーツ外傷・障害の予防戦略,競技パフォーマンスの評価についても解説しており,スポーツ理学療法に携わる理学療法士・トレーナー必携の書.

目次

  • スポーツ理学療法プラクティス 急性期治療とその技法

    ―目次―

    I 総説
     1 スポーツ理学療法における評価診断の実践に向けて

    II 評価技法と治療計画
     1 外傷・障害の発生メカニズム
     2 評価,治療に続く予防戦略

    III 検査評価総論
     1 理学的検査
      1)alignment
      2)mobility
      3)stability
      4)coordination
      5)スペシャルテストの活用
       (1)上肢
       (2)体幹
       (3)下肢
     2 医用画像─理学療法プログラム立案への活用─
      1)X線
      2)CT
      3)MRI
      4)エコー
      5)エラストグラフィ
     3 生化学的検査
      1)生化学的検査とその解釈
     4 筋電図
      1)基礎
      2)応用
     5 動作分析評価
      1)肉眼による観察ポイントと分析スキル
      2)フィールド,医療現場などで活用できる手法
      3)機器を用いた最先端の手法
     6 フィールドテスト
      1)サッカー
      2)ラグビー
     7 体調管理のためのモニタリング
      1)コンディショニングチェック
      2)ITを活用したコンディショニング

    IV 病態経過に伴う検査評価
     1 急性期評価
      1)頭部・頚部外傷
      2)靱帯損傷
      3)打撲,肉ばなれ
     2 慢性期評価

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。

I 総説

P.4 掲載の参考文献
1) IFSPT Sports Physical Therapy Competencies and Standards. IFSPT. https://ifspt.org/competencies/
 
2) Speak J, et al : Impaired pressor response after spaceflight and bedrest : evidence for cardiovascular dysfunction. Eur J Appl Physiol 85 : 49-55, 2001
 
3) Muller EA : Influence of training and of inactivity on muscle strength. Arch Phys Med Rehabil 51 : 449-462, 1970
PubMed
4) 藤谷順子 : 急性期リハビリテーションの重要性. 総合リハビリテーション 42 : 923-927, 2014
 
5) Ferretti M, et al : Anti-inflammatory effects of continuous passive motion on meniscal fibrocartilage. J Orthop Res 23 : 1165-1171, 2005
PubMed
6) Petersen AM, et al : The anti-inflammatory effect of exercise. J Appl Physiol (1985) 98 : 1154-1162, 2005
PubMed
7) 坂本優子ほか : 滑膜細胞のメカニカルストレスに対する応答性. 運動器慢性疾患に対する運動療法, 黒澤尚編, 金原出版, 東京, 19-23, 2009
 
8) Kim SG, et al : Gene expression of type I and type III collagen by mechanical stretch in anterior cruciate ligament cells. Cell Struct Funct 27 : 139-144, 2002
PubMed
9) Eiff MP, et al : Early mobilization versus immobilization in the treatment of lateral ankle sprains. Am J Sports Med 22 : 83-88, 1994
PubMed
10) 松本英彦ほか : 足関節外側側副靱帯損傷新鮮例に対する早期運動療法のX線的評価. 整外と災外 52 : 925-931, 2003
Medical*Online
11) 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
PubMed
12) Carley PJ, et al : Electrotherapy for acceleration of wound hearing : low intensity direct current. Arch Phys Med Rehabil 66 : 443-446, 1985
 
13) 廣重陽介ほか : 足関節外側靱帯損傷急性期の腫脹に対するマイクロカレント刺激の効果. 臨スポーツ医 30 : 99-103, 2013
Medical*Online
14) Rexing J, et al : Effects of cold compression, bandaging, and microcurrent electrical therapy after cranial cruciate ligament repair in dogs. Vet Surg 39 : 54-58, 2010
PubMed
15) Sun JS, et al : In vitro effects of low-intensity ultrasound stimulation on bone cells. J Biomed Mater Res 57 : 449-456, 2001
 
16) Cook SD, et al : Improved cartilage repair after treatment with low-intensity pulsed ultrasound. Clin Orthop Relat Res 391 (Suppl) : S231-S243, 2001
 
17) Warden SJ, et al : Can conventional therapeutic ultrasound units be used to accelerate fracture repair. Phys Ther Rev 4 : 117-126, 1999
 
18) 濱出茂治 : 低出力パルス超音波の創傷治癒促進効果. PTジャーナル 37 : 549-553, 2003
 

II 理学療法の基礎科学

P.14 掲載の参考文献
1) 松本正知 : 骨折の機能解剖学的運動療法, 中外医学社, 東京, 27-31, 2016
 
2) Rockwood CA Jr, editors : Fractures in Adults, 4th ed, JB Lippincott, Philadelphia, 269-271, 1966
 
3) Wolff JL : The Law of Bone Remodeling, Springer, Berlin, 1986
 
4) 野田政樹 : 骨のバイオロジー, 羊土社, 東京, p139-141, 1998
 
5) Popp KL, et al : Bone geometry, strength and muscle size in runners with a history of stress fracture. Med Sci Sports Exerc 41 : 2145-2150, 2009
PubMed
6) Burr DB, et al : Does microdamage accumulation affect the mechanical properties of bone? J Biomech 31 : 337-345, 1998
 
7) Pattin CA, et al : Cyclic mechanical property degradation during fatigue loading of cortical bone. J Biomech 29 : 69-79, 1996
PubMed
8) Aspenberg P, et al : Teriparatide improves early callus formation in distal radial fractures. Acta Orthop 81 : 234-236, 2010
PubMed
9) Messner K, et al : The long-term prognosis for severe damage to weight-bearing cartilage in the knee : a 14-year clinical and radiographic follow-up in 28 young athletes. Acta Orthop Scand 67 : 165-168, 1996
 
10) Davies-Tuck ML, et al : The natural history of cartilage defects in people with knee osteoarthritis. Osteoarthritis Cartilage 16 : 337-342, 2008
PubMed
11) Johnson DL, et al : Articular cartilage changes seen with magnetic resonance imaging-detected bone bruises associated with acture anterior cruciate ligament rupture. Am Sports Med 26 : 409-414, 1998
 
12) Saklatvala J, et al : Tumour necrosis factor alpha stimulates resorption and inhibits synthesis of proteoglycan in cartilage. Nature 322 : 547-549, 1986
PubMed
13) Buckwalter JA, et al : Articular cartilage. Part II : degeneration and osteoarthrosis, repair, regeneration, and transplantation. J Bone Joint Surg Am 79 : 612-632, 1997
 
14) International Cartilage Repair Society : http://www.cartilage.org/
PubMed
15) Sekiya I, et al : Human mesenchymal stem cells in synovial fluid increase in the knee with degenerated cartilage and osteoarthritis. J Orthop Res 30 : 943-949, 2012
PubMed
16) Pridie KH : A method of resurfacing osteoarthritic joints. J Bone Joint Surg Br 41 : 618-619, 1959
 
17) Stedman JR, et al : Microfracture : surgical technique and rehabilitation to treat chondral defects. Clin Orthop Relat Res 391S : 362-369, 2001
 
18) Frisble DD, et al : Early events in cartilage repair after subchondral bone microfracture. Clin Orthop Relat Res 407 : 215-227, 2003
 
19) Matsusue Y, et al : Arthroscopic multiple osteochondral transplantation to the chondral defect in the knee associated with anterior cruciate ligament disruption. Arthroscopy 17 : 747-751, 2001
 
20) Nam EK, et al : Biomechanical and histological evaluation of osteochondral taransplantation in a rabbit model. Am J Sports Med 32 : 308-316, 2004
 
21) Brittberg M, et al : Treatment of deep cartilage defects in the knee with autologous chondrocyte transplantation. N Engl J Med 331 : 889-895, 1994
PubMed
22) Jones DG, et al : Autologous chondrocyte implantation. J Bone Joint Surg Am 88 : 2502-2520, 2006
PubMed
23) Wakitani S, et al : Human autologous culture expanded bone marrow mesenchymal cell transplantation for repair of cartilage defects in osteoarthritis knees. Osteoarthritis Cartilage 10 : 199-206, 2002
PubMed
24) Sekiya I, et al : Arthroscopic transplantation of synovial stem cells improves clinical outcomes in knees with cartilage defects. Clin Orthop Relat Res 473 : 2316-2326, 2015
PubMed
P.22 掲載の参考文献
1) 岩部昌平ほか : 成長軟骨板損傷の病態と修復メカニズム. 整・災外 48 : 423-430, 2005
 
2) Peterson HA : Anatomy and growth. Epiphyseal Growth Plate Fractures, Schroder H ed, Springer-Verlag, Heidelberg, 7-19, 2007
 
3) von Pfeil DJ, et al : The epiphyseal plate : physiology, anatomy, and trauma. Compend Contin Educ Vet 31 : E1-11 ; quiz E12, 2009
PubMed
4) Chung R, et al : Recent research on the growth plate : Mechanisms for growth plate injury repair and potential cell-based therapies for regeneration. J Mol Endocrinol 53 : T45-61, 2014
PubMed
5) Arasapam G, et al : Roles of COX-2 and iNOS in the bony repair of the injured growth plate cartilage. J Cell Biochem 99 : 450-461, 2006
PubMed
6) Chung R, et al : Roles of neutrophil-mediated inflammatory response in the bony repair of injured growth plate cartilage in young rats. J Leukoc Biol 80 : 1272-1280, 2006
PubMed
7) Zhou FH, et al : Expression of proinflammatory cytokines and growth factors at the injured growth plate cartilage in young rats. Bone 35 : 1307-1315, 2004
PubMed
8) Feghali CA, et al : Cytokines in acute and chronic inflammation. Front Biosci 2 : d12-26, 1997
PubMed
9) Gerstenfeld LC, et al : Impaired fracture healing in the absence of TNF-alpha signaling : the role of TNF-alpha in endochondral cartilage resorption. J Bone Miner Res 18 : 1584-1592, 2003
PubMed
10) Zhou FH, et al : TNF-alpha mediates p38 MAP kinase activation and negatively regulates bone formation at the injured growth plate in rats. J Bone Miner Res 21 : 1075-1088, 2006
PubMed
11) Fu X, et al : Migration of bone marrow-derived mesenchymal stem cells induced by tumor necrosis factor-alpha and its possible role in wound healing. Wound Repair Regen 17 : 185-191, 2009
PubMed
12) Gerstenfeld LC, et al : Impaired intramembranous bone formation during bone repair in the absence of tumor necrosis factor-alpha signaling. Cells Tissues Organs 169 : 285-294, 2001
PubMed
13) Xian CJ, et al : Intramembranous ossification mechanism for bone bridge formation at the growth plate cartilage injury site. J Orthop Res 22 : 417-426, 2004
 
14) Ngo TQ, et al : Expression of bone morphogenic proteins and receptors at the injured growth plate cartilage in young rats. J Histochem Cytochem 54 : 945-954, 2006
PubMed
15) Chung R, et al : Potential roles of growth factor PDGF-BB in the bony repair of injured growth plate. Bone 44 : 878-885, 2009
PubMed
16) Chung C, et al : Influence of three-dimensional hyaluronic acid microenvironments on mesenchymal stem cell chondrogenesis. Tissue Eng Part A 15 : 243-254, 2009
PubMed
17) Macsai CE, et al : Structural and molecular analyses of bone bridge formation within the growth plate injury site and cartilage degeneration at the adjacent uninjured area. Bone 49 : 904-912, 2011
PubMed
18) Fischerauer E, et al : The spatial and temporal expression of VEGF and its receptors 1 and 2 in posttraumatic bone bridge formation of the growth plate. J Mol Histol 42 : 513-522, 2011
PubMed
19) Horowitz MC, et al : Control of osteoclastogenesis and bone resorption by members of the TNF family of receptors and ligands. Cytokine Growth Factor Rev 12 : 9-18, 2001
PubMed
20) Yang YQ, et al : The role of vascular endothelial growth factor in ossification. Int J Oral Sci 4 : 64-68, 2012
PubMed
21) Salter RB, et al : Injuries involving the epiphyseal plate. J Bone Joint Surg 45 : 587-622, 1963
 
22) Iwabu S, et al : Primary healing of physeal separation under rigid fixation. J Bone Joint Surg Br 80 : 726-730, 1998
PubMed
23) Rang M : The Growth Plate and Its Disorders, E. & S. Livingstone, Edinburgh, 1969
 
24) Prieur WD : Management of growth plate injuries in puppies and kittens. J Small Anim Pract 30 : 631-638, 1989
 
P.29 掲載の参考文献
1) Faulkner JA, et al : Contractile properties of transplanted extensor digitorum longus muscles of cats. Am J Physiol 238 : C120-126, 1980
 
2) Whalen RG, et al : Expression of myosin isoforms during notexin-induced regeneration of rat soleus muscles. Dev Biol 141 : 24-40, 1990
PubMed
3) Jarvinen TA, et al : Muscle injuries : biology and treatment. Am J Sports Med 33 : 745-764, 2005
PubMed
4) Tatsumi R, et al : HGF/SF is present in normal adult skeletal muscle and is capable of activating satellite cells. Dev Biol 194 : 114-128, 1998
PubMed
5) Heron-Milhavet L, et al : Impaired muscle regeneration and myoblast differentiation in mice with a muscle-specific KO of IGF-IR. J Cell Physiol 225 : 1-6, 2010
PubMed
6) Ahmad CS, et al : Evaluation and management of hamstring injuries. Am J Sports Med 41 : 2933-2947, 2013
PubMed
7) 奥脇透 : 手術後の再受傷・再損傷予防の取り組み そのメカニズムとリハビリテーションの実際. 手術後の再受傷・再損傷メカニズムの解明 肉ばなれ. 臨スポーツ医 28 : 395-401, 2011
 
8) 仁賀定雄ほか : スポーツ現場における肉ばなれの実態. 日臨スポーツ医会誌 17 : 435-446, 2009
 
9) Hesselink MK, et al : Structural muscle damage and muscle strength after incremental number of isometric and forced lengthening contractions. J Muscle Res Cell Motil 17 : 335-341, 1996
PubMed
10) Kanzaki K, et al : The effects of eccentric contraction on myofibrillar proteins in rat skeletal muscle. Eur J Appl Physiol 110 : 943-952, 2010
PubMed
11) McCully KK, et al : Injury to skeletal muscle fibers of mice following lengthening contractions. J Appl Physiol (1985) 59 : 119-126, 1985
PubMed
12) Grounds MD : Towards understanding skeletal muscle regeneration. Pathol Res Pract 187 : 1-22, 1991
PubMed
13) Petersen J, et al : Evidence based prevention of hamstring injuries in sport. Br J Sports Med 39 : 319-323, 2005
PubMed
14) 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
PubMed
15) Mishra DK, et al : Anti-inflammatory medication after muscle injury. A treatment resulting in short-term improvement but subsequent loss of muscle function. J Bone Joint Surg Am 77 : 1510-1519, 1995
PubMed
16) Kojima A, et al : Heat stress facilitates the regeneration of injured skeletal muscle in rats. J Orthop Sci 12 : 74-82, 2007
PubMed
17) Malliaropoulos N, et al : The role of stretching in rehabilitation of hamstring injuries : 80 athletes follow-up. Med Sci Sports Exerc 36 : 756-759, 2004
PubMed
18) Askling C, et al : Hamstring injury occurrence in elite soccer players after preseason strength training with eccentric overload. Scand J Med Sci Sports 13 : 244-250, 2003
PubMed
19) Schache A : Eccentric hamstring muscle training can prevent hamstring injuries in soccer players. J Physiother 58 : 58, 2012
PubMed
P.38 掲載の参考文献
1) Reider B, et al : Treatment of isolated medial collateral ligament injuries in athletes with early functional rehabilitation. A five-year follow-up study. Am J Sports Med 22 : 470-477, 1994
PubMed
2) Wijdicks CA, et al : Injuries to the medial collateral ligament and associated medial structures of the knee. J Bone Joint Surg Am 92 : 1266-1280, 2010
 
3) Holden DL, et al : The nonoperative treatment of grade I and II medial collateral ligament injuries to the knee. Am J Sports Med 11 : 340-344, 1983
 
4) Derscheid GL, et al : Medial collateral ligament injuries in football. Nonoperative management of grade I and grade II sprains. Am J Sports Med 9 : 365-368, 1981
 
5) Weber AE, et al : Nonsurgical management and postoperative rehabilitation of medial instability of the knee. Sports Med Arthrosc 23 : 104-109, 2015
PubMed
6) Kiapour AM, et al : Basic science of anterior cruciate ligament injury and repair. Bone Joint Res 3 (2) : 20-31, 2014
PubMed
7) Woo SL, et al : Healing and repair of ligament injuries in the knee. J Am Acad Orthop Surg 8 : 364-372, 2000
PubMed
8) Tipton CM, et al : The influence of physical activity on ligaments and tendons. Med Sci Sports 7 : 165-175, 1975
PubMed
9) Amiel D, et al : Stress deprivation effect on metabolic turnover of the medial collateral ligament collagen. A comparison between nine- and 12-week immobilization. Clin Orthop Relat Res (172) : 265-270, 1983
PubMed
10) Woo SLY, et al : The response of ligaments to injury. Healing of the Collateral Ligaments, Raven Press, New York : 351-364, 1990
 
11) Nakamura N, et al : A comparison of in vivo gene delivery methods for antisense therapy in ligament healing. Gene Ther 5 : 1455-1461, 1998
 
12) Girgis FG, et al : The cruciate ligaments of the knee joint. Anatomical, functional and experimental analysis. Clin Orthop Relat Res (106) : 216-231, 1975
PubMed
13) Murray MM, et al : Histological changes in the human anterior cruciate ligament after rupture. J Bone Joint Surg Am 82 : 1387-1397, 2000
PubMed
14) Steadman JR, et al : A minimally invasive technique ("healing response") to treat proximal ACL injuries in skeletally immature athletes. J Knee Surg 19 : 8-13, 2006
 
15) Stufkens SA, et al : The diagnosis and treatment of deltoid ligament lesions in supination-external rotation ankle fractures : a review. Strategies Trauma Limb Reconstr 7 : 73-85, 2012
PubMed
16) Phisitkul P, et al : MCL injuries of the knee : current concepts review. Iowa Orthop J 26 : 77-90, 2006
PubMed
17) DeLong JM, et al : Surgical repair of medial collateral ligament and posteromedial corner injuries of the knee : a systematic review. Arthroscopy 2015 [Epub ahead of print]
 
18) LaPrade RF, et al : The management of injuries to the medial side of the knee. J Orthop Sports Phys Ther 42 : 221-233, 2012
 
19) Weiss JA, et al : Evaluation of a new injury model to study medial collateral ligament healing : primary repair versus nonoperative treatment. J Orthop Res 9 : 516-528, 1991
PubMed
20) Pujol N, et al : Transverse femoral fixation in anterior cruciate ligament (ACL) reconstruction with hamstrings grafts : an anatomic study about the relationships between the transcondylar device and the posterolateral structures of the knee. Knee Surg Sports Traumatol Arthrosc 14 : 724-729, 2006
PubMed
21) Menetrey J, et al : "Biological failure" of the anterior cruciate ligament graft. Knee Surg Sports Traumatol Arthrosc 16 : 224-231, 2008
PubMed
22) Amiel D, et al : The phenomenon of "ligamentization" : anterior cruciate ligament reconstruction with autogenous patellar tendon. J Orthop Res 4 : 162-172, 1986
PubMed
23) Sun L, et al : Comparison of graft healing in anterior cruciate ligament reconstruction with and without a preserved remnant in rabbits. Knee 20 : 537-544, 2013
PubMed
24) Costa-Paz M, et al : Spontaneous healing in complete ACL ruptures : a clinical and MRI study. Clin Orthop Relat Res 470 : 979-985, 2012
PubMed
25) Eriksson K, et al : Semitendinosus tendon graft ingrowth in tibial tunnel following ACL reconstruction : a histological study of 2 patients with different types of early graft failure. Acta Orthop Scand 71 : 275-279, 2000
PubMed
26) Abe S, et al : Light and electron microscopic study of remodeling and maturation process in autogenous graft for anterior cruciate ligament reconstruction. Arthroscopy 9 : 394-405, 1993
PubMed
27) Marchant MH Jr, et al : Management of medial-sided knee injuries, part 1 : medial collateral ligament. Am J Sports Med 39 : 1102-1113, 2011
PubMed
28) Papageorgiou CD, et al : A multidisciplinary study of the healing of an intraarticular anterior cruciate ligament graft in a goat model. Am J Sports Med 29 : 620-626, 2001
 
29) Irvine JN, et al : ACL reconstruction : Is there a difference in graft motion for bone-patellar tendonbone vs hamstring autograft at 6 weeks post-operatively? Orthop J Sports Med 2 (2) : 1-2, 2014
 
P.46 掲載の参考文献
1) Bullough PG, et al : The strength of the menisci of the knee as it relates to their fine structure. J Bone Joint Surg Br 56 : 564-570, 1970
 
2) Mow, VC, et al : Knee Meniscus : Basic and Clinical Foundations, Raven Press, New York, 45, 1992
 
3) Arnoczky SP, et al : Microvasculature of the human meniscus. Am J Sports Med 10 : 90-95, 1982
PubMed
4) Arnoczky SP : Anatomy of anterior cruciate ligament. Clin Orthop 172 : 19-25, 1983
 
5) Starke C, et al : Meniscal repair. Arthroscopy 25 : 1033-1044, 2009
PubMed
6) Guisasola I, et al : Knee immobilization on meniscal healing after suture : an experimental study in sheep. Clin Orthop Relat Res 395 : 227-233, 2002
PubMed
7) 橋本淳ほか : 半月板修復の生物学. 関西関節鏡膝研誌 9 : 34-38, 1998
Medical*Online
8) de Albornoz PM, et al : The meniscal healing process. Muscles Ligaments Tendons J 2 : 10-18, 2002
 
9) Webber RJ, et al : An organ culture model for assaying wound repair of the fibrocartilaginous knee joint. Am J Sports Med 17 : 393-400, 1989
PubMed
10) Dominici M, et al : Minimal criteria for defining multipotent mesenchymal stromal cells. The International Society for Cellular Therapy position statement. Cytotherapy 8 : 315-317, 2006
PubMed
11) King T, et al : Neovascularisation of the meniscus with angiogenin. An experimental study in rabbits. J Bone Joint Surg Br 73 : 587-590, 1991
PubMed
12) King D : The healing of semilunar cartilages. J Bone Joint Surg Am 18-A : 333-337, 1936
 
13) 小田邉浩二ほか : 半月板損傷に対する滑膜幹細胞を用いた再生医療. 関節外科 33 : 70-76, 2014
 
14) Kerstein MD : The scientific basis of healing. Adv Wound Care 10 : 30-36, 1997
PubMed
15) Velnar T, et al : The wound healing process : an overview of the cellular and molecular mechanisms. J Int Med Res 37 : 1528-1542, 2009
PubMed
16) O'Brien SJ, et al : Inflammation and healing of meniscal injury. Sports-Induced Inflammation : Clinical and Basic Science Concepts, Leadbetter WB, et al eds, American Academy of Orthopaedic Surgeons, Park Ridge, 225-255, 1990
 
17) Arnoczky S, et al : The microvasculature of the meniscus and its response to injury : An experimental study in the dog. Am J Sports Med 11 : 131-141, 1983
PubMed
18) Hashimoto J, et al : Meniscal repair using fibrin sealant and endothelial cell growth factor. An experimental study in dogs. Am J Sports Med 20 : 537-541, 1992
PubMed
19) Weiss CB, et al : Non-operative treatment of meniscal tears. J Bone Joint Surg Am 71 : 811-822, 1989
PubMed
20) Ghadially FN, et al : Experimental methods of repairing injured menisci. J Bone Joint Surg Br 68 : 106-110, 1986
PubMed
21) Arnoczky SP, et al : Meniscal repair using an exogenous fibrin clot. An experimental study in dogs. J Bone Joint Surg Am 70 : 1209-1217, 1988
 
22) Jitsuiki J, et al : Meniscal repair enhanced by an interpositional free synovial autograft : an experimental study in rabbits. Arthroscopy 10 : 659-666, 1994
PubMed
23) Matsukura Y, et al : Mesenchymal stem cells in synovial fluid increase after meniscus injury. Clin Orthop Relat Res 472 : 1357-1364, 2014
PubMed
24) Sekiya I, et al : Human mesenchymal stem cells in synovial fluid increase in the knee with degenerated cartilage and osteoarthritis. J Orthop Res 30 : 943-949, 2012
PubMed
25) Morito T, et al : Synovial fluid-derived mesenchymal stem cells increase after intra-articular ligament injury in humans. Rheumatology (Oxford) 47 : 1137-1143, 2008
PubMed
26) Arnoczky SP, et al : The meniscus : Structure, function, repair, and replacement. Orthopaedic Basic Science, Buckwalter JA, et al eds, American Academy of Orthopaedic Surgeons, Rosemont, 531-545, 2000
 
27) Roeddecker K, et al : Meniscal healing-A biomechanical study. J Surg Res 56 : 20-27, 1994
PubMed
28) Kawamura S, et al : Biomechanics and healing response of the meniscus. Oper Tech Sports Med 11 : 68-76, 2003
 
29) Yim JH, et al : A comparative study of meniscectomy and nonoperative treatment for degenerative horizontal tears of the medial meniscus. Am J Sports Med 41 : 1565-1570, 2013
PubMed
30) Neogi DS, et al : Role of nonoperative treatment in managing degenerative tears of the medial meniscus posterior root. J Orthopaed Traumatol 14 : 193-199, 2013
 
31) 石川大樹 : 半月板縫合術後の修復過程における断裂部の神経・血管の観察. 昭医会誌 56 : 265-272, 1996
 
32) Fairbank TJ : Knee joint changes after meniscectomy. J Bone Joint Surg Br 30 : 664-670, 1948
 
33) 中田研ほか : 半月板修復 (縫合) 術 : 半月板単独損傷. 臨スポーツ医 30 (臨時増刊) : 137-142, 2013
 
34) 中田研ほか : 半月板損傷-縫合術-. 臨スポーツ医 29 : 109-122, 2012
Medical*Online
35) 中田研ほか : 半月板縫合術-inside-out法の適応と手技-. 臨スポーツ医 31 : 1149-1155, 2014
 
36) 中田研 : ACL損傷に合併する半月・軟骨損傷と治療. 日臨スポーツ医会誌 18 : 191-197, 2010
Medical*Online
37) Cannon WD, et al : The incidence of healing in arthroscopic meniscal repairs in anterior cruciate ligament-reconstructed knees versus stable knees. Am J Sports Med 20 : 176-181, 1992
PubMed
38) Tenuta JJ, et al : Arthroscopic evaluation of meniscal repairs : Factors that affect healing. Am J Sports Med 22 : 797-802, 1994
 
39) Driscoll MD, et al : Marrow stimulation improves meniscal healing at early endpoints in a rabbit meniscal injury model. Arthroscopy 29 : 113-121, 2013
 
40) Nakata K, et al : New technique of arthroscopic meniscus repair in radial tears. Sports Injuries Prevention, Diagnosis, Treatment and Rehabilitation, Doral MN ed, Springer-Verlag, 305-311, 2012
 
41) 中田研ほか : 半月板修復術の適応拡大と術式の工夫. 膝関節鏡下手術 (スキル関節鏡下手術アトラス), 吉矢晋一編, 越智光夫監, 文光堂, 東京, 252-263, 2010
 
42) Guisasola IG, et al : Knee immobilization on meniscal healing after suture. An experimental study in sheep. Clin Orthop Relat Res 395 : 227-233, 2002
 
43) Port J, et al : Meniscal repair supplemented with exogenous fibrin clot and autogenous cultured marrow cells in the goat model. Am J Sports Med 24 : 547-555, 1996
PubMed
44) Barber-Westin SD, et al : Clinical Healing Rates of meniscus repairs of tears in the central-third (redwhite) zone. Arthroscopy 30 : 134-146, 2014
PubMed
45) Eggli S, et al : Long-term results of arthroscopic meniscal repair. An analysis of isolated tears. Am J Sports Med 23 : 715-720, 1995
PubMed
46) Biedert RM : Treatment of intrasubstance meniscal lesions : a randomized prospective study of four different methods. Knee Surg Sports Traumatol Arthrosc 8 : 104-108, 2000
PubMed
47) Horibe S, et al : Results of isolated meniscal repair evaluated by second-look arthroscopy. Arthroscopy 12 : 150-155, 1996
PubMed
48) Sommerlath KG : Results of meniscal repair and partial meniscectomy in stable knees. Int Orthop 15 : 347-350, 1991
PubMed
49) Stein T, et al : Long-term outcome after arthroscopic meniscal repair versus arthroscopic partial meniscectomy for traumatic meniscal tears. Am J Sports Med 38 : 1542-1548, 2010
PubMed
50) Paxton ES, et al : Meniscal repair versus partial meniscectomy : A systematic review comparing reoperation rates and clinical outcomes. Arthroscopy 27 : 1275-1288, 2011
PubMed
51) Nepple JJ, et al : Meniscal repair outcomes at greater than five years : a systematic literature review and meta-analysis. J Bone Joint Surg Am 94 : 2222-2227, 2012
 
52) Kurosaka M, et al : Repeat tears of repaired menisci after arthroscopic confirmation of healing. J Bone Joint Surg Br 84 : 34-37, 2002
PubMed
P.57 掲載の参考文献
1) 稲川喜一ほか : 創傷の正常の治癒過程. 栄養管理でみるみる治る 褥瘡治療のコツ, 大村健二編, 南江堂, 東京, 18-27, 2012
 
2) 夏井睦 : 創傷治癒の基礎知識. これからの創傷治癒, 医学書院, 東京, 4-7, 20-22, 2003
 
3) 太田憲一郎ほか : 両側同時アキレス腱断裂の1症例-術後早期における運動療法の工夫-. スポーツ傷害 15 : 4-5, 2010
 
4) Schleip R, et al : 人体の張力ネットワーク 膜・筋膜-最新知見と治療アプローチ, 竹井仁監訳, 医歯薬出版, 東京, 11-17, 149-155, 419-428, 2015
 
5) 福井勉 : 皮膚運動の原則. 皮膚運動学, 福井勉編, 三輪書店, 東京, 23-34, 2011
 
6) Foldi M, Foldi E (Hrsg) : 外科学, 整形外科学, スポーツ医学におけるML/CDTの可能性. リンパ学, 第7版, 藤村朗総監修, キベプランニング, 東京, 633-651, 2013
 
7) 坂口顕 : 創傷に対する電気療法, 最新物理療法の臨床適応, 庄本康治編, 文光堂, 東京, 174-189, 2012
 
P.64 掲載の参考文献
1) Giddings VL, et al : Calcaneal loading during walking and running. Med Sci Sports Exerc 32 : 627-634, 2000
PubMed
2) Kannus P, et al : Histopathological changes preceding spontaneous rupture of a tendon. A controlled study of 891 patients. J Bone Joint Surg Am 73 : 1507-1525, 1991
PubMed
3) Irwin TA : Current concepts review : insertional achilles tendinopathy. Foot Ankle Int 31 : 933-939, 2010
PubMed
4) Carr AJ, et al : The blood supply of the calcaneal tendon. J Bone Joint Surg Br 71 : 100-101, 1989
PubMed
5) Magnusson SP, et al : Region-specific differences in Achilles tendon cross-sectional area in runners and non-runners. Eur J Appl Physiol 90 : 549-553, 2003
PubMed
6) Shaw HM, et al : Development of the human Achilles tendon enthesis organ. J Anat 213 : 718-724, 2008
 
7) Rufai A, et al : Structure and histopathology of the insertional region of the human Achilles tendon. J Orthop Res 13 : 585-593, 1995
PubMed
8) Edama M, et al : The twisted structure of the human Achilles tendon. Scand J Med Sci Sports 25 : e497-503, 2015
PubMed
9) Woo SL, et al : Tissue engineering of ligament and tendon healing. Clin Orthop Relat Res S312-323, 1999
PubMed
10) Chamberlain CS, et al : The spatio-temporal dynamics of ligament healing. Wound Repair Regen 17 : 206-215, 2009
PubMed
11) Newsham-West R, et al : Long-term morphology of a healing bone-tendon interface : a histological observation in the sheep model. J Anat 210 : 318-327, 2007
 
12) 篠原靖司 : 足部・足関節の捻挫と周辺傷害-スポーツ復帰までの道-足部・足関節捻挫で傷害される靱帯の機能解剖 足関節外側靱帯の解剖と機能. 関節外科 33 : 10-14, 2014
 
13) Benjamin M, et al : The enthesis organ concept and its relevance to the spondyloarthropathies. Adv Exp Med Biol 649 : 57-70, 2009
 
14) Maffulli N, et al : Overuse tendon conditions : time to change a confusing terminology. Arthroscopy 14 : 840-843, 1998
 
15) Skutek M, et al : Cyclic mechanical stretching modulates secretion pattern of growth factors in human tendon fibroblasts. Eur J Appl Physiol 86 : 48-52, 2001
PubMed
16) Rompe JD, et al : Eccentric loading, shock-wave treatment, or a wait-and-see policy for tendinopathy of the main body of tendo Achillis : a randomized controlled trial. Am J Sports Med 35 : 374-383, 2007
 
17) Barsby T, et al : Transforming growth factor beta3 promotes tendon differentiation of equine embryoderived stem cells. Tissue Eng Part A 19 : 2156-2165, 2013
 
18) Hansen M, et al : Local administration of insulin-like growth factor-I (IGF-I) stimulates tendon collagen synthesis in humans. Scand J Med Sci Sports 23 : 614-619, 2013
PubMed
19) Durgam SS, et al : Responses of equine tendon- and bone marrow-derived cells to monolayer expansion with fibroblast growth factor-2 and sequential culture with pulverized tendon and insulin-like growth factor-I. Am J Veterinary Res 73 : 162-170, 2012
 
20) Thomopoulos S, et al : bFGF and PDGF-BB for tendon repair : controlled release and biologic activity by tendon fibroblasts in vitro. Annal Biomed Eng 38 : 225-234, 2010
 
21) Koulouris G, et al : Magnetic resonance imaging arameters for assessing risk of recurrent hamstring injuries in elite athletes. Am J Sports Med 35 : 1500-1506, 2007
 
22) Kannus R, et al : The effects of training, immobilization and remobilization on musculoskeletal tissue. Scand J Med Sci Sports 2 : 100-118, 1992
 
23) 奥脇透 : 手術後の再受傷・再損傷メカニズムの解明 肉離れ. 臨スポーツ医 28 : 395-401, 2011
 
24) Malliaropoulos N, et al : Reinjury after acute posterior thigh muscle injuries in elite track and field athletes. Am J Sports Med 39 : 304-310, 2011
PubMed
25) Leung KS, et al : A Comparative study on the biomechanical and histological properties of boneto-bone, bone-to-tendon, and tendon-to-tendon healing : An Achilles tendon-calcaneus model in goats. Am J Sports Med 43 : 1413-1421, 2015
 
26) 小林尚史 : 繰り返し引っ張り刺激に対する靱帯及び靱帯付着部の損傷とその修復に関する実験的研究. 金沢大学十全医学会雑誌 106 : 236-248, 1997
 
27) 片山一雄 : 繰り返し引っ張り刺激に対する靱帯損傷とその修復について. 金沢大十全医会誌 106 : 494-504, 1997
 
28) Holm C, et al : Achilles tendon rupture - treatment and complications : a systematic review. Scand J Med Sci Sports 25 : e1-10, 2015
PubMed
29) Olsson N, et al : Stable surgical repair with accelerated rehabilitation versus nonsurgical treatment for acute Achilles tendon ruptures : a randomized controlled study. Am J Sports Med 41 : 2867-2876, 2013
PubMed
30) Willits K, et al : Operative versus nonoperative treatment of acute Achilles tendon ruptures : a multicenter randomized trial using accelerated functional rehabilitation. J Bone Joint Surg Am 92 : 2767-2775, 2010
PubMed
31) 内山英司 : 手術後の再受傷・再損傷メカニズムの解明 アキレス腱手術後再断裂. 臨スポーツ医 28 : 403-409, 2011
 
32) Alfredson H, et al : A treatment algorithm for managing Achilles tendinopathy : new treatment options. Br J Sports Med 41 : 211-216, 2007
PubMed
33) Sussmilch-Leitch SP, et al : Physical therapies for Achilles tendinopathy : systematic review and metaanalysis. J Foot Ankle Res 5 : 15, 2012
PubMed
34) Arya S, et al : Tendinopathy alters mechanical and material properties of the Achilles tendon. J Appl Physiol (Bethesda, Md : 1985) 108 : 670-675, 2010
 
35) Woods C, et al : The Football Association Medical Research Programme : an audit of injuries in professional football - analysis of hamstring injuries. Br J Sports Med 38 : 36-41, 2004
PubMed
P.76 掲載の参考文献
1) Jarvinen TA, et al : Muscle injuries : biology and treatment. Am J Sports Med 33 : 745-762, 2005
PubMed
2) Eltzschig HK, et al : Hypoxia and inflammation. N Engl J Med 364 : 656-665, 2011
PubMed
3) Deal DN, et al : Ice reduces edema. A study of microvascular permeability in rats. J Bone Joint Surg Am 84-A : 1573-1578, 2002
PubMed
4) Butlur SH : Disuse and CRPS. Complex regional pain syndrome. Progress in Pain Research and Management, Vol 22, Harden RN, et al eds, IASP Press, Seattle, 141-150, 2001
 
5) Watanabe Y, et al : Intravenous pamidronate prevents femoral bone loss and renal stone formation during 90-day bed rest. J Bone Miner Res 19 : 1771-1778, 2004
 
6) Yamaji T, et al : The effect of micromovement on callus formation. J Orthop Sci 6 : 571-575, 2001
PubMed
7) Kenwright J, et al : Effect of controlled axial micromovement on healing or tibial fractures. Lancet 2 : 1185-1187, 1986
 
8) Noordeen MH, et al : Cyclical micromovement and fracture healing : a study in dogs. J Bone Joint Surg Br 77 : 645-648, 1995
 
9) De Bastiani G, et al : The treatment of fractures with dynamic axial fixator. J Bone Joint Surg Br 66 : 538-545, 1984
PubMed
10) Jarvinen M, et al : The effect of early mobilization and immobilization on the healing process following muscle injuries. Sports Med 15 : 78-89, 1993
 
11) Trudel G, et al : 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
 
12) Okita M, et al : Effects of reduced joint mobility on sarcomere length, collagen fibril arrangement in the endomysium, and hyaluronan in rat soleus muscle. J Muscle Res Cell Motil 25 : 159-166, 2004
PubMed
13) Hunt TK, et al : Role of oxygen in repair processes. Acta Chir Scand 138 : 109-110, 1972
PubMed
14) Noyes FR : Functional properties of knee ligaments and alterations induced by immobilization : a correlative biomechanical and histological study in primates. Clin Orthop Relat Res 123 : 210-242, 1977
PubMed
15) Amiel D, et al : The effect of immobilization on collagen turnover in connective tissue : A biochemical-biomecanical correlation. Acta Orthop Scand 53 : 325-332, 1982
 
16) Hagen KB, et al : Bed rest for acute low-back pain and sciatica (Review). Cochrane Database Syst Rev 18 : CD001254, 2004
PubMed
17) Chou R, et al : Diagnosis and treatment of low back pain : A joint clinical practice guideline from the American College of Physicians and the American Pain Society. Ann Intern Med 147 : 478-491, 2007
PubMed
18) Hubbard TJ, et al : Does Cryothrapy Hasten Return to Participation? A Systematic Review. J Athl Train 39 : 88-94, 2004
PubMed
19) Knight KL : Cryotherapy in Sport Injury Management, 田淵健一監修, Book House HD, 東京, 73-90, 1997
 
20) Tomchuk D, et al : The magnitude of tissue cooling during cryotherapy with varied types of compression. J Athl Train 45 : 230-237, 2010
PubMed
21) Oosterveld FGJ, et al : The effects of local heat and cold therapy on the intraarticular and skin surface temperature of the knee. Arth Rheum 35 : 146-151, 1992
 
22) Meeusen S, et al : The use of cryotherapy in sports injuries. Sports Med 3 : 398-414, 1986
 
23) Daanen HA : Finger cold-induced vasodilation : a review. Eur J Appl Physiol 89 : 411-426, 2003
PubMed
24) Mac Auley DC : Ice therapy : how good is the evidence? Int J Sports Med 22 : 379-384, 2001
PubMed
25) Schaser KD, et al : Local cooling restores microcirculatory hemodynamics after closed soft-tissue trauma in rats. J Trauma 61 : 642-649, 2006
PubMed
26) Nordstrom CH, et al : Reduction of cerebral blood flow and oxgen consumption with combination of barbituate anesthesia and induced hypothermia in the rat. Acta Anesthesiol Scand 22 : 7-12, 1978
 
27) Halar EM, et al : Nerve conduction velocity relationship of skin, subcutaneous intramuscular temperatures. Arch Phys Med Rehabil 61 : 199-203, 1980
PubMed
28) 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
PubMed
29) McMeeken J, et al : Effects of cooling with simulated ice on skin temperature and nerve conduction velocity. Aust J Physiother 30 : 111-114, 1984
PubMed
30) Bugaj R : The cooling, analgesic, and rewarming effects of ice massage on localized skin. Phys Ther 55 : 11-19, 1975
PubMed
31) Saito N, et al : Continuous local cooling for pain relief following total hip arthroplasty. J Arthroplasty 19 : 334-337, 2004
 
32) Schaser KD, et al : Prolonged superficial local cryotherapy attenuates microcirculatory impairment, regional inflammation, and muscle necrosis after closed soft tissue injury in rats. Am J Sports Med 35 : 93-102, 2007
PubMed
33) Matsen FA 3rd, et al : The effect of local cooling on postfracture swelling. A controlled study. Clin Orthop Relat Res 109 : 201-206, 1975
PubMed
34) 加賀谷善教 : 寒冷療法. 理学療法学 32 : 265-268, 2005
Medical*Online
35) Clarke RSJ, et al : The duration of sustained contractions of the human forearm at different muscle temperatures. J Physiol 143 : 454-473, 1958
 
36) Wassinger CA, et al : Proprioception and throwing accuracy in the dominant shoulder after cryotherapy. J Athl Train 42 : 84-89, 2007
PubMed
37) Clendenin M, et al : Influence of cutaneous ice application on single motor units in humans. Phys Ther 51 : 166-175, 1971
PubMed
38) Park K, 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
PubMed
39) Brodowicz G, et al : Comparison of stretching with ice, stretching with heat, or stretching alone on hamstring flexibility. J Athl Train 31 : 324-327, 1996
PubMed
40) Sigel B, et al : Type of compression for reducing venous stasis. A study of lower extremities during inactive recumbency. Arch Surg 110 : 171-175, 1975
 
41) Nicolaides AN, et al : Prevention of venous thromboembolism. Int Angiol 20 : 1-37, 2001
PubMed
42) Elliott CG, et al : Calf-thigh sequential pneumatic compression to prevent deep-vein thrombosis after non-lower extremity trauma. J Trauma 47 : 25-32, 1999
PubMed
43) Airaksinen O, et al : Elastic bandages and intermittent pneumatic compression for treatment of acute ankle sprains. Arch Phys Med Rehabil 71 : 380-383, 1990
PubMed
44) van den Bekerom MPJ, et al : What is the evidence for Rest, Ice, Compression, and Elevation therapy in the treatment of ankle sprains in adults? J Athl Train 47 : 435-443, 2012
PubMed
45) Bjorkman G, et al : Acute improvement of contralateral hand function after deafferentation. Neuroreport 16 : 517-519, 2005
 
46) Lundborg G, et al : Hargens nerve compression in the carpal tunnel-functional response to experimentally induced controlled pressure. J Hand Surg Am 7 : 252-259, 1982
PubMed
47) Grieveson S : Intermittent pneumatic compression pump settings for the optimum reduction of oedema. J Tissue Viability 13 : 98-100, 102, 104 passim, 2003
PubMed
48) Neilsen HV : Arterial pressure-blood flow relationships during limb elevation in man. Acta Physiol Scand 118 : 405-413, 1983
 
49) Markenson D, et al : 2010 American Heart Association and American Red Cross Guidelines for First Aid. Circulation 122 (suppl 3) : S934-S946, 2010
 
50) Rucinski TJ, et al : The effects of intermittant compression on edema in postacute ankle sprains. J Orthop Sports Phys Ther 14 : 65-69, 1991
 
51) 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
 
52) 加賀谷善教 : スポーツ障害に対するアイシングの効果. 臨スポーツ医 32 : 488-492, 2015
Medical*Online
53) Bleakley C, et al : The use of ice in the treatment of acute soft-tissue injury. Am J Sports Med 32 : 251-261, 2004
PubMed
54) Mancuso MA, et al : Effects of prior physical activity on skin surface temperature response of the ankle during and after a 30-minute ice pack application. J Athl Train 27 : 242-249, 1992
 
55) 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
PubMed

III 急性期における部位・病態別理学療法のポイント

P.88 掲載の参考文献
1) 日本臨床スポーツ医学会学術委員会脳神経外科部会 : 頭部外傷10か条の提言, 第2版, 1-39, 2015
 
2) 大伴茉奈ほか : 第4回スポーツにおける脳震盪に関する国際会議 : 解説と翻訳の抜粋. 臨スポーツ医 31 : 202-211, 2014
Medical*Online
3) 阿部均 : 頭頚部・脊椎外傷時の救急処置. 公認アスレティックトレーナー専門科目テキスト8巻 救急処置, 文光堂, 東京, 87, 2013
 
4) 野地雅人 : スポーツでの頭部外傷. 日臨スポーツ医会誌 21 : 442-443, 2013
Medical*Online
5) 下條仁士 : バーナー症候群. 臨スポーツ医 15 : 1015-1019, 1998
Medical*Online
6) 金岡恒治 : 頚椎頚髄損傷予防の考え方. 臨スポーツ医 31 : 216-220, 2014
Medical*Online
7) 黒澤尚 : コンタクトスポーツにおける頭部外傷に対する現場での対処法. スポーツ外傷学 II 頭頚部・体幹, 医歯薬出版, 東京, 21-24, 2000
 
P.96 掲載の参考文献
1) 高橋弦 : 腰椎椎間板ヘルニア. 脊椎脊髄 25 : 295-304, 2012
 
2) 高橋和久 : 椎間板性腰痛に関する基礎研究. 日本腰痛会誌 14 : 45-49, 2008
 
3) Sakai T, et al : Incidence and etiology of lumbar spondylolysis ; review of the literature. J Orthop Sci 15 : 281-288, 2010
PubMed
4) 西良浩一ほか : 腰椎分離症における腰痛. 脊椎脊髄 25 : 335-344, 2012
 
5) Kapanji JI : 下肢. カパンディ関節の生理学, 第5版, 荻島秀男監訳, 医歯薬出版, 東京, 2-65, 1995
 
6) Narita T, et al : The prevention of low back disorders in divers. Sports Injuries and Prevention, Kanosue K ed, Springer Japan, Tokyo, 383-393, 2015
 
7) Nachemson AL : The lumbar spine, an orthopaedic challenge. Spine 1 : 59-69, 1976
 
8) Sairyo K, et al : Spondylolysis fracture angle in children and adolescents on CT indicates the facture producing force vector-A biomechanical rationale. Internet J Spine Surg 1 : 583-590, 2005
 
9) 金岡恒治ほか : 腰痛がスーッと消える, 学研パブリッシング, 東京, 2014
 
10) 金岡恒治ほか : 金岡・成田式 腰痛さよなら体操~たった一ヵ月で二度と痛くならない! , 宝島社, 東京, 2015
 
11) Nitta H, et al : Study on dermatomes by means of selective lumbar spinal nerve block. Spine 18 : 1782-1786, 1993
 
12) Beulter WJ, et al : The natural history of spondylolysis and spondylolisthesis-45-year follow-up evaluation. Spine 28 : 1027-1035, 2003
 
P.105 掲載の参考文献
1) 蒲田和芳ほか : 腰痛の評価. アスレティックトレーナーテキスト 1, 日本体育協会, 東京, 253-257, 2002
 
2) 松田直樹 : スポーツ復帰に向けたエクササイズ. スポーツと腰痛, 金原出版, 東京, 113-120, 2011
 
3) 高橋佐江子ほか : わが国のトップレベル選手におけるタイトネスについて. 日整外スポーツ医会誌 30 : 84-91, 2013
 
4) 鈴木重行 : IDストレッチング, 三輪書店, 東京, 32-33, 1999
 
5) 鈴木重行 : IDストレッチング, 三輪書店, 東京, 112-113, 1999
 
P.117 掲載の参考文献
1) 鈴木智 : 肩のスポーツ障害に対する理学療法の実際. 肩と肘のスポーツ障害 診断と治療のテクニック, 菅谷啓之編, 中外医学社, 東京, 144-157, 2012
 
2) 鈴木智ほか : 肩腱板損傷のリハビリテーション. 上肢急性外傷におけるリハビリテーションとリコンディショニング, 宮下浩二編, 文光堂, 東京, 123-139, 2011
 
3) 鈴木智 : 上肢筋骨格系障害への挑戦 遠位部. 臨床思考を踏まえる理学療法プラクティス-新人若手理学療法士のための最新知見臨床応用ガイダンス-, 嶋田智明ほか常任編集, 文光堂, 東京, 126-140, 2013
 
4) Zanetti M, et al : MR imaging for traumatic tears of the rotator cuff ; High prevalence of greater tuberosity fractures and subscapularis tendon tears. AJR Am J Roentgenol 172 : 463-467, 1999
PubMed
5) Bartl C, et al : Open repair of isolated traumatic subscapularis tendon tears. Am J Sports Med 39 : 490-496, 2011
PubMed
6) Deutsch A, et al : Traumatic tears of the subscapularis tendon. Clinical diagnosis, magnetic resonance imaging findings, and operative treatment. Am J Sports Med 25 : 13-22, 1997
PubMed
7) 望月智之 : 肩腱板損傷の病態・リスクと治療. 上肢急性外傷におけるリハビリテーションとリコンディショニング, 文光堂, 東京, 31-38, 2011
 
8) 澤野靖之ほか : 肩腱板損傷の発生メカニズム. 理学療法 32 : 214-221, 2015
 
9) Mazzoca AD, et al : Evaluation and treatment of acromioclavicular joint injuries. Am J Sports Med 35 : 316-329, 2007
 
10) Meister K : Injuries to the shoulder in the throwing athlete, Part two : Evaluation/Treatment. Am J Sports Med 28 : 587-601, 2000
 
11) 近藤司ほか : 肩鎖関節脱臼例における追跡動作について. 肩関節 10 : 30-32, 1986
 
12) Rockwood CA : Disorders of the acromioclavicular joint. The Shoulder, Rockwood CA ed, Saunders, Philadelphia, 413-476, 1990
 
13) 富士川恭輔ほか : 骨折脱臼, 南山堂, 東京, 514-518, 2008
 
14) Itoi E, et al : Immobilization in external rotation after shoulder dislocation reduces the risk of recurrence ; a randomized controlled trial. J Bone Joint Surg Am 89 : 2124-2131, 2007
PubMed
15) 青柳孝彦ほか : 若年スポーツ選手の肩関節初回脱臼例に対する保存療法と手術療法による機能回復の差異. 肩関節 36 : 337-341, 2012
 
16) Hovelius L, et al : Primary anterior dislocation of the shoulder in young patients. A ten-year prospective study . J Bone Joint Surg Am 78 : 1677-1684, 1996
 
P.125 掲載の参考文献
1) Stoneback JW, et al : Incidence of elbow dislocations in the United States population. J Bone Joint Surg Am 94 : 240-245, 2012
PubMed
2) Dizdarevic I, et al : Epidemiology of elbow dislocations in high school athletes. Am J Sports Med 44 : 202-208, 2016
PubMed
3) O'Driscoll SW, et al : Elbow subluxation and dislocation. A spectrum of instability. Clin Orthop Relat Res 280 : 186-197, 1992
PubMed
4) Lindenhovius AL, et al : The posttraumatic stiff elbow : a review of the literature. J Hand Surg Am 32 : 1605-1623, 2007
PubMed
5) Mehlhoff TL, et al : Simple dislocation of the elbow in the adult. Results after closed treatment. J Bone Joint Surg Am 70 : 244-249, 1988
PubMed
6) Michelsson JE, et al : Pathogenesis of experimental heterotopic bone formation following temporary forcible exercising of immobilized limbs. Clin Orthop Relat Res 176 : 265-272, 1983
PubMed
7) Iordens GI, et al : Early mobilisation versus plaster immobilisation of simple elbow dislocations : results of the FuncSiE multicentre randomised clinical trial. Br J Sports Med : Epub 2015
 
8) Ross G, et al : Treatment of simple elbow dislocation using an immediate motion protocol. Am J Sports Med 27 : 308-311, 1999
PubMed
9) Broberg MA, et al : Results of treatment of fracturedislocations of the elbow. Clin Orthop Relat Res 216 : 109-119, 1987
PubMed
10) Morrey BF, et al : Functional anatomy of the ligaments of the elbow. Clin Orthop Relat Res 201 : 84-90, 1985
PubMed
11) Jackson TJ, et al : Biomechanical differences of the anterior and posterior bands of the ulnar collateral ligament of the elbow. Knee Surg Sports Traumatol Arthrosc 24 : 2319-2323, 2016
PubMed
12) Ciccotti MG, et al : Comparison of the biomechanical profile of the intact ulnar collateral ligament with the modified Jobe and the Docking reconstructed elbow : an in vitro study. Am J Sports Med 37 : 974-981, 2009
 
13) Sasaki J, et al : Ultrasonographic assessment of the ulnar collateral ligament and medial elbow laxity in college baseball players. J Bone Joint Surg Am 84 : 525-531, 2002
PubMed
14) Evans PJ, et al : Prevention and treatment of elbow stiffness. J Hand Surg Am 34 : 769-778, 2009
PubMed
15) Kesmezacar H, et al : The results of conservatively treated simple elbow dislocations. Acta Orthop Traumatol Turc 44 : 199-205, 2010
PubMed
P.136 掲載の参考文献
1) 丸山真博ほか : 高校野球選手における体の各部位の痛みと野球の支障度との関係. 日臨スポーツ医会誌 21 : 687-693, 2013
Medical*Online
2) 関口貴博 : 橈骨遠位端骨折. 整形外科リハビリテーション, 神野哲也ほか編, 羊土社, 東京, 156-168, 2012
 
3) 岡田亨ほか : 体操選手の傷害と理学療法. PTジャーナル 40 : 439-447, 2006
 
4) 岡田亨 : 体操選手のコンディショニングと障害予防. 臨スポーツ医 29 : 1237-1243, 2012
 
5) 桜庭景植 : 若年の体操選手における上肢障害-あん馬における手関節障害を中心に-. J Clin Rehab 15 : 568-573, 2006
 
6) 尼子雅敏ほか : 手関節周辺部の機能解剖と診察法. 骨・関節・靱帯 19 : 885-895, 2006
Medical*Online
7) 関口貴博ほか : 手関節痛を有する体操競技選手における手関節背屈時の手根骨動態解析-MRI画像による一般成人との比較, 及び柔軟性の関連について-. 日臨スポーツ医会誌 21 : 27-35, 2013
 
8) 関口貴博 : 体操競技による手関節障害に対する理学療法の考え方. 臨スポーツ医 31 (臨時増刊) : 159-163, 2014
 
P.144 掲載の参考文献
1) 菅谷啓之 : 投球障害治療の全体像. 臨スポーツ医 32 (臨時増刊) : 114-119, 2015
 
2) 松浦哲也ほか : 成長期野球肘の診断. 復帰をめざすスポーツ整形外科, メジカルビュー社, 東京, 16-18, 2011
 
3) 宮下浩二ほか : スポーツ外傷に対する温熱・寒冷療法. 整形外科 MOOK 5 物理療法, 篠原英記ほか編, 三輪書店, 東京, 40-47, 2000
 
4) 小林寛和 : リハビリテーションとリコンディショニング総論. アスリートのリハビリテーションとリコンディショニング上巻 外傷学総論/検査・測定と評価-リスクマネジメントに基づいたアプローチ-, 文光堂, 東京, 8-15, 2010
 
5) 宮下浩二 : 公認アスレティックトレーナー専門科目テキストワークブック 7 巻アスレティックリハビリテーション, 文光堂, 東京, 144-153, 2011
 
6) 宮下浩二ほか : 野球の現場における経時的な関節機能評価からみた大学野球投手の肩関節筋力と投球障害肩の発生の関係. 体力科学 64 : 453-460, 2015
 
7) 宮下浩二 : 投球障害に対する競技現場でのリハビリテーションとリコンディショニングの実際. 投球障害のリハビリテーションとリコンディショニング-リスクマネジメントに基づいたアプローチ-, 文光堂, 東京, 187-202, 2010
 
8) 宮下浩二 : 外傷・障害予防を目的とした動きづくり (4) 投動作. アスリートのリハビリテーションとリコンディショニング下巻 プログラミングの実際と手法の活用-リスクマネジメントに基づいたアプローチ-, 文光堂, 東京, 114-123, 2012
 
9) 宮下浩二 : 動作別パフォーマンス向上のためのフィジカルトレーニング-2020年のアスリートのために-投げる (野球). 日整外スポーツ医会誌 35 : 163-168, 2015
 
P.153 掲載の参考文献
1) Stracciolini A, et al : Sex and growth effect on pediatric hip injuries presenting to sports medicine clinic. J Pediatr Orthop B25 : 315-321, 2016
 
2) 井上裕久ほか : ラグビーによる股関節脱臼の一例. 臨スポーツ医 21 : 458-460, 2004
Medical*Online
3) 槇尾崇 : スノーボード外傷で生じた股関節閉鎖孔脱臼の2例. JOSKAS 38 : 354-355, 2013
Medical*Online
4) 岡田正道ほか : フェンシングにより股関節唇の断裂をきたしたと思われた1例. 整形外科 52 : 796-798, 2001
 
5) Philippon MJ, et al : Arthroscopic management of femoroacetabular impingement : osteoplasty technique and literature review. Am J Sports Med 35 : 1571-1580, 2007
PubMed
6) 和田孝ほか : 股関節鏡視下手術の実際-股関節スポーツ損傷に対するアプローチ- FAI (femoroacetabular impingement) とは. 臨スポーツ医 29 : 367-371, 2012
 
7) 高木祥ほか : 股関節および周辺疾患の機能解剖学的病態把握と理学療法. スポーツに伴う股関節周辺痛の機能解剖学的病態把握と理学療法. 理学療法 31 : 930-938, 2014
 
8) 日本股関節学会FAIワーキンググループ : 大腿骨寛骨臼インピンジメント (FAI) の診断について (日本股関節学会指針). Hip Joint 41 : 1-6, 2015
 
9) Jacobson T, et al : Surgical correction of the snapping iliopsoas tendon. Am J Sports Med 18 : 470-474, 1990
PubMed
10) Cass SP : Piriformis syndrome : A cause of nondiscogenic sciatica. Curr Sports Med Rep 14 : 41-44, 2015
PubMed
11) Mayrand N, et al : Diagnosis and management of posttraumatic piriformis syndrome : a case study. J Manipulative Physiol Ther 29 : 486-491, 2006
PubMed
12) Julsrud ME : Piriformis syndrome. J Am Podiatr Med Assoc 79 : 128-131, 1989
PubMed
13) Byrd JWT : Piriformis syndrome. Oper Tech Sports Med 13 : 71-79, 2005
 
P.163 掲載の参考文献
1) Cetin C, et al : Chronic groin pain in an amateur soccer player. Br J Sports Med 38 : 223-224, 2004
 
2) 仁賀定雄 : 鼠径部痛症候群の診断と治療 総論 (病態・歴史). 臨スポーツ医 23 : 733-741, 2006
 
3) 村上憲治ほか : 育成年代サッカー選手の鼠径部周囲の疼痛発症状況と発症後行動に関するアンケート調査. 日整外スポーツ医会誌 34 : 57-64, 2013
 
4) 村上憲治ほか : 理学療法のプラクティス 下肢. 臨床スポーツ医学 スポーツ障害理学療法ガイド 考え方と疾患別アプローチ, 文光堂, 210-214, 2014
 
5) Lynch SA, et al : Groin injuries in sport : treatment strategies. Sports Med 28 : 137-144, 1999
PubMed
P.173 掲載の参考文献
1) Ekstrand J, et al : Epidemiology of muscle injuries in professional football (soccer). Am J Sports Med 39 : 1226-1232, 2011
PubMed
2) Ekstrand J : サッカーにおける筋損傷の疫学. スポーツ筋損傷 診断と治療法, ガイアブックス, 東京, 125-133, 2014
 
3) Askling CM, et al : Acute first-time hamstring strains during high-speed running : a longitudinal study including clinical and magnetic resonance imaging findings. Am J Sports Med 35 : 197-206, 2007
 
4) Askling CM, et al : Proximal hamstring strains of stretching type in different sports. Am J Sports Med 36 : 1799-1804, 2008
PubMed
5) Freckleton G, et al : Risk factor for hamstring muscle strain injury in sports : a systematic review and meta-analysis. Br J Sports Med 47 : 351-358, 2013
PubMed
6) Fousekis K, et al : Intrinsic risk factors of non-contact quadriceps and hamstring strains in soccer : a prospective study of 100 professional players. Br J Sports Med 45 : 709-714, 2011
PubMed
7) 奥脇透 : 筋肉損傷. 臨スポーツ医 27 (臨時増刊) : 102-108, 2010
 
8) Pollock N, et al : British athletics muscle injury classification : a new grading system. Br J Sports Med 48 : 1347-1351, 2014
PubMed
9) Sherry MA, et al : A comparison of 2 rehabilitation programs in the treatment of acute hamstring strains. J Orthop Sports Phys Ther 34 : 116-125, 2004
PubMed
10) Kubota J, et al : Relationship between the MRI and EMG mesurement. J Sports Med 30 : 533-537, 2009
 
P.183 掲載の参考文献
1) Koga H, et al : Mechanisms for noncontact anterior cruciate ligament injuries : knee joint kinematics in 10 injury situations from female team handball and basketball. Am J Sports Med 38 : 2218-2225, 2010
PubMed
2) Meyer EG, et al : Anterior cruciate ligament injury induced by internal tibial torsion or tibiofemoral compression. J Biomech 41 : 3377-3383, 2008
PubMed
3) Cerulli G, et al : In vivo anterior cruciate ligament strain behaviour during a rapid deceleration movement : case report. Knee Surg Sports Traumatol Arthrosc 11 : 307-311, 2003
PubMed
4) Escamilla RF, et al : Anterior cruciate ligament strain and tensile forces for weight-bearing and nonweight-bearing exercises : a guide to exercise selection. J Orthop Sports Phys Ther 42 : 208-220, 2012
 
5) Berchuck M, et al : Gait adaptations by patients who have a deficient anterior cruciate ligament. J Bone Joint Surg Am 72 : 871-877, 1990
PubMed
6) Beard DJ, et al : Gait and electromyographic analysis of anterior cruciate ligament deficient subjects. Gait Posture 4 : 83-88, 1996
 
7) Hurd WJ, et al : Knee instability after acute ACL rupture affects movement patterns during the midstance phase of gait. J Orthop Res 25 : 1369-1377, 2007
 
8) Gardinier ES, et al : Gait and neuromuscular asymmetries after acute anterior cruciate ligament rupture. Med Sci Sports Exerc 44 : 1490-1496, 2012
PubMed
9) Weiss K, et al : Biomechanics associated with patellofemoral pain and ACL injuries in sports. Sports Med 45 : 1325-1337, 2015
PubMed
10) Herrington L, et al : A systematic literature review to investigate if we identify those patients who can cope with anterior cruciate ligament deficiency. Knee 13 : 260-265, 2006
PubMed
11) Fitzgerald GK, et al : A decision-making scheme for returning patients to high-level activity with nonoperative treatment after anterior cruciate ligament rupture. Knee Surg Sports Traumatol Arthrosc 8 : 76-82, 2000
PubMed
P.193 掲載の参考文献
1) 中田研ほか : 半月板損傷-縫合術-. 臨スポーツ医 29 : 109-122, 2012
Medical*Online
2) 木村雅史 : 半月板損傷. 最新整形外科大系, 膝関節・大腿, 越智光夫編, 中山書店, 東京, 316-326, 2006
 
3) Starke C, et al : Meniscal repair. Arthroscopy 25 : 1033-1044, 2009
PubMed
4) 中田研ほか : 3D dynamic MRIによる前十字靱帯・半月板の動態解析. 整・災外 55 : 1375-1382, 2012
 
5) Vedi V, et al : Meniscal movement. J Bone Joint Surg Br 81 : 37-41, 1999
PubMed
6) Castaing J, et al : 膝関節. 関節・運動器の機能解剖-下肢編, 井原秀俊ほか訳, 協同医書出版社, 東京, 91-94, 1986
 
7) Fukubayashi T, et al : The contact area and pressure distribution pattern of the knee. Acta Orthop Scand 51 : 871-879, 1980
PubMed
8) Kurosawa H, et al : Load-bearing mode of the knee joint : physical behavior of the knee joint with or without menisci. Clin Orthop Relat Res 149 : 283-290, 1980
PubMed
9) Sweigart BS, et al : Review-Toward tissue engineering of the knee meniscus. Tissue Eng 7 : 111-129, 2001
 
10) Tissakht M, et al : Tensile stress-strain characteristics of the human meniscal material. J Biomech 28 : 411-422, 1995
PubMed
11) Anderson DR, et al : Viscoelastic shear properties of the equine medial meniscus. J Orthop Res 9 : 550-558, 1991
PubMed
12) 遠山晴一 : 半月板損傷におけるバイオメカニクス. 臨スポーツ医 31 : 1120-1124, 2014
Medical*Online
13) Mow VC, et al : Biphasic creep and stress relaxation of articular cartilage in compression : Theory and experiments. J Biomech Eng 102 : 73-84, 1980
PubMed
14) 藤江裕道 : バイオメカニクスからみた膝関節の機能. 最新整形外科大系, 膝関節・大腿, 越智光夫編, 中山書店, 東京, 13-30, 2006
 
15) DeHaven KE, et al : Arthroscopic medial meniscus repair in the athlete. Clin Sports Med 16 : 69-86, 1997
PubMed
16) 中田研ほか : アスリートの半月板損傷-新しい治療と将来への展望-. 臨スポーツ医 29 : 1047-1053, 2012
Medical*Online
17) 中田研ほか : 膝軟骨・半月板-損傷を防ぐポイント. 臨スポーツ医 25 (臨時増刊) : 127-134, 2008
 
18) 中田研ほか : テニスにおける半月板損傷の診断と治療. 復帰を目指すスポーツ整形外科, 宗田大編, メジカルビュー社, 東京, 236-242, 2011
 
19) Weinstabl R, et al : Economic considerations for the diagnosis and therapy of meniscal lesions : Can magnetic resonance imaging help reduce the expense? World J Surg 21 : 363-368, 1997
PubMed
20) 中田研 : 半月板損傷. 新版スポーツ整形外科学, 中嶋寛之監, 福林徹ほか編, 南江堂, 東京, 2011
 
21) McMurray TP : The semilunar cartilages. Br J Surg 29 : 407-414, 1942
 
22) 史野根生 : スポーツ膝の臨床, 金原出版, 東京, 2008
 
23) Malanga GA, et al : Physical examination of the knee : A review of the original test description and scientific validity of common orthopedic tests. Arch Phys Med Rehabil 84 : 592-603, 2003
PubMed
24) Goyal KS, et al : Vertical tears of the lateral meniscus. Effects of in vitro tibiofemoral joint mechanics. Orthop J Sports Med 2 (8) : 1-8, 2014
 
25) Shrive MA, et al : Load-bearing in the knee joint. Clin Orthop Relat Res 131 : 279-287, 1978
 
26) Arno S, et al : Tibiofemoral contact mechanics following a horizontal cleavage lesion in the posterior horn of the medial meniscus. J Orthop Res 33 : 584-590, 2015
PubMed
27) Padalecki JR, et al : Biomechanical consequences of a complete radial tear adjacent to the medial meniscusposterior root attachment site : in situ pullout repair restores derangement of joint mechanics. Am J Sports med 42 : 699-707, 2014
 
28) Allaire R, et al : Biomechanical consequences of a tear of the posterior root of the medial meniscus. Similar to total meniscectomy. J Bone Joint Surg Am 90 : 1922-1931, 2008
PubMed
29) Durselen L, et al : Anterior knee laxity increases gapping of posterior horn medial meniscal tears. Am J Sports Med 39 : 1749-1755, 2011
PubMed
30) Smith JP, et al : Medial and lateral meniscal tear patterns in anterior cruciate ligament-deficient knees. A prospective analysis of 575 tears. Am J Sports Med 29 : 415-419, 2001
PubMed
31) Stanitski CL, et al : Observations on acute knee hemarthrosis in children and adolescents. J Pediatr Orthop 13 : 506-510, 1993
PubMed
32) Terzidis IP, et al : Meniscal tear characteristics in young athletes with a stable knee. Arthroscopic evaluation. Am J Sports Med 34 : 1170-1175, 2006
PubMed
33) 木村佳記ほか : 半月板修復 (縫合) 術 : 半月板単独損傷-術後リハビリテーション. 臨スポーツ医 30 (臨時増刊) : 394-401, 2013
 
34) 中田研, ほか : 半月板修復 (縫合) 術 : 半月板単独損傷. 臨スポーツ医 30 (臨時増刊) : 137-142, 2013
 
35) 土屋明弘 : スポーツ選手の半月板損傷. 整形外科臨床パサージュ, 下肢のスポーツ外傷と障害, 中村耕三編, 中山書店, 東京, 252-257, 2011
 
36) Bohnsack M, et al : Infrapatellar fat pad pressure and volume changes of the anterior compartment during knee motion : possible clinical consequences to the anterior knee pain syndrome. Knee Surg Sports Traumatol Arthrosc 13 : 135-141, 2005
 
37) 木村佳記 : 膝関節スポーツ外傷術後における理学療法の工夫. 理療京都 45 : 37-44, 2016
Medical*Online
38) Harvey D : Assessment of the flexibility of elite athletes using the modified Thomas test. Br J Sports Med 32 : 68-70, 1998
PubMed
39) 木村佳記ほか : 大腿四頭筋の伸長肢位と組織弾性の関係. -骨盤肢位による影響-. 第28 日本整形外科超音波学会プログラム・抄録集, 84, 2016
 
40) Stokes M, et al : The contribution of reflex inhibition to arthrogenous muscle weakness. Clin Sci 67 : 7-14, 1984
PubMed
41) Nisell R : Mechanics of the knee. A study of joint and muscle load with clinical applications. Acta Orthop Scand Suppl 216 : 1-42, 1985
PubMed
42) Daniel DM, et al : Use of the quadriceps active test to diagnose posterior cruciate-ligament disruption and measure posterior laxity of the knee. J Bone Joint Surg Am 70 : 386-391, 1988
PubMed
43) Richards DP, et al : Meniscal tear biomechanics : loads across meniscal tears in human cadaveric knees. Orthopedics 31 : 347-350, 2008
PubMed
44) Hollis M : Fundamental and derived positions. Practical Exercise Therapy, 4th ed, Hollis M, et al eds, Blackwell Pablishing, Oxford, 47-57, 1999
 
45) 木村佳記ほか : 半月板・関節軟骨損傷に対するリハビリテーションとリコンディショニングの実際. 下肢スポーツ外傷のリハビリテーションとリコンディショニング, 小柳磨毅編, 文光堂, 東京, 136-151, 2011
 
46) 多田周平ほか : Half sittingを用いた体幹前傾運動とスクワットの運動力学的特性の比較-三次元動作解析装置と筋電計を用いた分析-. 第50回日本理学療法士学術大会抄録集, 530, 2015
 
47) 木村佳記ほか : スプリットスクワットの運動解析. 臨バイオメカニクス 32 : 441-448, 2011
Medical*Online
48) 木村佳記 : 体幹・下肢の運動連鎖とトレーニング. 理療京都 43 : 39-44, 2014
 
49) 近藤さや花ほか : 衝撃吸収機能の評価としての改変ドロップスクワットの運動解析. 臨バイオメカニクス 37 : 327-334, 2016
 
P.204 掲載の参考文献
1) Takao M, et al : Arthroscopic assesment for intraarticular disorders in residual ankle disability after sprain. Am J Sports Med 33 : 686-692, 2005
 
2) Bassett FH 3rd, et al : Longitudinal rupture of the peroneal tendons. Am J Sports Med 21 : 354-357, 1993
PubMed
3) Uys HD, et al : Clinical association of acute lateral ankle sprain with syndesmotic involvement : a stress radiography and magnetic resonance imaging study. Am J Sports Med 30 : 816-822, 2002
PubMed
4) van Dijk CN, et al : Physical examination is sufficient for the diagnosis of sprained ankles. J Bone Joint Surg Br 78 : 958-962, 1996
PubMed
5) 大関覚ほか : 踵腓靱帯の機能と不全状態の徒手検査法. 日足の外科会誌 26 : 85-90, 2005
 
6) Lynch SA, et al : Treatment of acute lateral ankle ligament rupture in the athlete. Conservative versus surgical treatment. Sports Med 27 : 61-71, 1999
PubMed
7) van Dijk CN, et al : Conservative and surgical management of acute isolated syndesmotic injuries : ESSKA-AFAS consensus and guidelines. Knee Surg Sports Traumatol Arthrosc 24 : 1217-1227, 2016
PubMed
P.214 掲載の参考文献
1) 園畑素樹ほか : 中高年剣道選手のスポーツ傷害. 九州スポ学会誌 6 : 129-134, 1994
 
2) 笠次良雨ほか : バレーボールにおけるアキレス腱断裂について. 臨スポーツ医 16 : 369-372, 1999
 
3) 吉田雅之ほか : アキレス腱皮下断裂における保存療法と手術療法成績の比較検討. 整形外科 36 : 1712-1714, 1996
 
4) Kulund DN : アキレス腱断裂. インジャード・アスリート, 中嶋寛之監修, ブックハウスHD, 東京, 542-544, 1994
 
5) 内山英司 : アキレス腱断裂の治療, 運動医学の出版社, 神奈川, 2016
 
6) 内山英司 : アキレス腱断裂の手術療法. 新OS NOW 21 : 223-227, 2004
 
7) Uchiyama E, et al : A modified operation for Achilles tendon ruptures. Am J Sport Med 35 : 1739-1743, 2007
 
8) 内山英司ほか : アキレス腱断裂に対する縫合術後の筋力トレーニング. 臨スポーツ医 23 : 159-165, 2006
 
9) 田中龍太ほか : 当院でのアキレス腱縫合術後における機能回復の経過について. 日臨スポーツ医会誌 23 : 5225, 2015
 
10) Silbernagel KG, et al : Deficits in heel-rise height and Achilles tendon elongation occur in patients recovering from an Achilles tendon rupture. Am J Sports Med 40 : 1564-1571, 2012
PubMed
11) Kangas J, et al : Achilles tendon elongation after rupture repair : a randomized comparison of 2 postoperative regimens. Am J Sports Med 35 : 59-64, 2007
PubMed
12) 園部俊晴ほか : アキレス腱断裂に対する術後のリハビリテーション. 改訂版 スポーツ外傷・障害に対する術後のリハビリテーション, 内山英司ほか監修, 運動と医学の出版社, 神奈川, 342-377, 2013
 
13) 内山英司ほか : アキレス腱断裂. Sportsmedicine 172 : 1-20, 2015
 
14) 今屋健 : アキレス腱縫合術後の動作獲得時期について. 日臨スポーツ医会誌 23 : S255, 2015
Medical*Online
P.223 掲載の参考文献
1) 熊井司 : 腱損傷. 臨スポーツ医 27 (臨時増刊) : 77-81, 2010
 
2) 中村憲正 : 靱帯損傷. 臨スポーツ医 27 (臨時増刊) : 82-88, 2010
 
3) 岩本潤 : 骨損傷. 臨スポーツ医 27 (臨時増刊) : 97-101, 2010
 
4) Thomas RB, et al : ストレングストレーニング&コンディショニング, 第3版, 金久博昭監修, ブックハウスHD, 東京, 579-589, 2010
 
5) 岡戸敦男ほか : シンスプリントの機能解剖学的病態把握と理学療法. 理学療法 31 : 166-174, 2014
 
6) 岡戸敦男 : 足のランニング障害へのリハビリテーションとリコンディショニング. ランニング障害のリハビリテーションとリコンディショニング, 増田雄一編, 文光堂, 東京, 180-188, 2012
 
7) Slocum DB, et al : Biomechanics of running. J Am Med Assoc 205 : 721-728, 1968
 
8) 岡戸敦男 : ランニング動作と関節運動連鎖. ランニング障害のリハビリテーションとリコンディショニング, 増田雄一編, 文光堂, 東京, 37-43, 2012
 
9) 岡戸敦男ほか : スポーツ種目による膝関節術後トレーニングのポイント (2) 持久力系種目. 臨スポーツ医 31 : 156-161, 2014
Medical*Online
10) 岡戸敦男 : 陸上競技 (2) 長距離・マラソン. 競技種目特性からみたリハビリテーションとリコンディショニング, 山本利春編, 文光堂, 東京, 217-225, 2014
 

書評

最近チェックした商品履歴

Loading...