Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress 2023 EHA Congress 2023 ASCO Annual Meeting
Clinical Collections
Advances in Alzheimer’s

At a glance: The ONWARDS insulin icodec trials

A round-up of the ONWARDS phase 3 clinical trials evaluating the novel weekly insulin icodec in people with diabetes.
ADVANCED SEARCH
Log in
Top
Sports Medicine
Published in: Sports Medicine 7/2017

01-07-2017 | Leading Article

Muscle Injuries in Sports: A New Evidence-Informed and Expert Consensus-Based Classification with Clinical Application

Authors: Xavier Valle, Eduard Alentorn-Geli, Johannes L. Tol, Bruce Hamilton, William E. Garrett Jr, Ricard Pruna, Lluís Til, Josep Antoni Gutierrez, Xavier Alomar, Ramón Balius, Nikos Malliaropoulos, Joan Carles Monllau, Rodney Whiteley, Erik Witvrouw, Kristian Samuelsson, Gil Rodas

Published in: Sports Medicine | Issue 7/2017

Login to get access

Abstract

Muscle injuries are among the most common injuries in sport and continue to be a major concern because of training and competition time loss, challenging decision making regarding treatment and return to sport, and a relatively high recurrence rate. An adequate classification of muscle injury is essential for a full understanding of the injury and to optimize its management and return-to-play process. The ongoing failure to establish a classification system with broad acceptance has resulted from factors such as limited clinical applicability, and the inclusion of subjective findings and ambiguous terminology. The purpose of this article was to describe a classification system for muscle injuries with easy clinical application, adequate grouping of injuries with similar functional impairment, and potential prognostic value. This evidence-informed and expert consensus-based classification system for muscle injuries is based on a four-letter initialism system: MLG-R, respectively referring to the mechanism of injury (M), location of injury (L), grading of severity (G), and number of muscle re-injuries (R). The goal of the classification is to enhance communication between healthcare and sports-related professionals and facilitate rehabilitation and return-to-play decision making.
Literature
1.
Ekstrand J, Hägglund M, Waldén M. Epidemiology of muscle injuries in professional football (soccer). Am J Sports Med. 2011;39(6):1226–32.PubMedCrossRef
2.
Williams S, Trewartha G, Kemp S, et al. A meta-analysis of injuries in senior men’s professional Rugby Union. Sports Med. 2013;43(10):1043–55.PubMedCrossRef
3.
Brophy RH, Wright RW, Powell JW, et al. Injuries to kickers in American football: the National Football League experience. Am J Sports Med. 2010;38(6):1166–73.PubMedCrossRef
4.
Feeley BT, Kennelly S, Barnes RP, et al. Epidemiology of National Football League training camp injuries from 1998 to 2007. Am J Sports Med. 2008;36(8):1597–603.PubMedCrossRef
5.
Olson D, Sikka RS, Labounty A, et al. Injuries in professional football: current concepts. Curr Sports Med Rep. 2013;12(6):381–90.
6.
Hrysomallis C. Injury incidence, risk factors and prevention in Australian rules football. Sports Med. 2013;43(5):339–54.PubMedCrossRef
7.
8.
Alonso JM, Junge A, Renstrom P, et al. Sports injuries surveillance during the 2007 IAAF World Athletics Championships. Clin J Sport Med. 2009;19(1):26–32.PubMedCrossRef
9.
Feddermann-Demont N, Junge A, Edouard P, et al. Injuries in 13 international athletics championships between 2007–2012. Br J Sports Med. 2014;48(7):513–22.PubMedCrossRef
10.
Garrett WE Jr. Muscle strain injuries. Am J Sports Med. 1996;24(6 Suppl.):S2–8.PubMed
11.
Jarvinen TA, Jarvinen TL, Kaariainen M, et al. Muscle injuries: biology and treatment. Am J Sports Med. 2005;33(5):745–64.PubMedCrossRef
12.
Volpi P, Melegati G, Tornese D, et al. Muscle strains in soccer: a five-year survey of an Italian major league team. Knee Surg Sports Traumatol Arthrosc. 2004;12(5):482–5.PubMedCrossRef
13.
Ekstrand J, Healy JC, Walden M, et al. Hamstring muscle injuries in professional football: the correlation of MRI findings with return to play. Br J Sports Med. 2012;46(2):112–7.PubMedCrossRef
14.
Orchard J, Best TM, Verrall GM. Return to play following muscle strains. Clin J Sport Med. 2005;15(6):436–41.PubMedCrossRef
15.
Carling C, Le Gall F, Orhant E. A four-season prospective study of muscle strain reoccurrences in a professional football club. Res Sports Med. 2011;19(2):92–102.PubMedCrossRef
16.
Gibbs NJ, Cross TM, Cameron M, et al. The accuracy of MRI in predicting recovery and recurrence of acute grade one hamstring muscle strains within the same season in Australian Rules football players. J Sci Med Sport. 2004;7(2):248–58.PubMedCrossRef
17.
Koulouris G, Connell DA, Brukner P, et al. Magnetic resonance imaging parameters for assessing risk of recurrent hamstring injuries in elite athletes. Am J Sports Med. 2007;35(9):1500–6.PubMedCrossRef
18.
Malliaropoulos N, Isinkaye T, Tsitas K, et al. Reinjury after acute posterior thigh muscle injuries in elite track and field athletes. Am J Sports Med. 2011;39(2):304–10.PubMedCrossRef
19.
Verrall GM, Slavotinek JP, Barnes PC, et al. Assessment of physical examination and magnetic resonance imaging findings of hamstring injury as predictors for recurrent injury. J Orthop Sport Phys. 2006;36(4):215–24.CrossRef
20.
Eirale C, Tol JL, Farooq A, et al. Low injury rate strongly correlates with team success in Qatari professional football. Br J Sports Med. 2013;47(12):807–8.PubMedCrossRef
21.
Hagglund M, Walden M, Magnusson H, et al. Injuries affect team performance negatively in professional football: an 11-year follow-up of the UEFA Champions League injury study. Br J Sports Med. 2013;47(12):738–42.PubMedCrossRef
22.
Guerrero M, Guiu-Comadevall M, Cadefau JA, et al. Fast and slow myosins as markers of muscle injury. Br J Sports Med. 2008;42(7):581–4.PubMedCrossRef
23.
O’Donoghue DH. Treatment of injuries to athletes. Philadelphia:W.B. Saunders; 1962.
24.
Ryan AJ. Quadriceps strain, rupture, and Charlie horse. Med Sci Sports. 1969;1(2):106–11.
25.
Takebayashi S, Takasawa H, Banzai Y, et al. Sonographic findings in muscle strain injury: clinical and MR imaging correlation. J Ultrasound Med. 1995;14(12):899–905.PubMedCrossRef
26.
Moller M, Kalebo P, Tidebrant G, et al. The ultrasonographic appearance of the ruptured Achilles tendon during healing: a longitudinal evaluation of surgical and nonsurgical treatment, with comparisons to MRI appearance. Knee Surg Sports Traumatol Arthrosc. 2002;10(1):49–56.PubMedCrossRef
27.
Stoller DW. Magnetic resonance imaging in orthopaedics and sports medicine. Baltimore: Lippincott Williams & Wilkins; 2007.
28.
Smart M. The principles of treatment of muscles and joints by graduated muscular contractions. Oxford: Oxford University Press, Humphrey Milford [printed by John Johnson]; 1933.
29.
Zarins B, Ciullo JV. Acute muscle and tendon injuries in athletes. Clin Sports Med. 1983;2(1):167–82.PubMed
30.
Chan O, Del Buono A, Best TM, et al. Acute muscle strain injuries: a proposed new classification system. Knee Surg Sports Traumatol Arthrosc. 2012;20(11):2356–62.PubMedCrossRef
31.
Mueller-Wohlfahrt HW, Haensel L, Mithoefer K, et al. Terminology and classification of muscle injuries in sport: the Munich consensus statement. Br J Sports Med. 2013;47(6):342–50.PubMedCrossRef
32.
Pollock N, James SL, Lee JC, et al. British athletics muscle injury classification: a new grading system. Br J Sports Med. 2014;48(18):1347–51.PubMedCrossRef
33.
Pedret C, Balius R. Lesiones musculares en el deporte. Actualización de un artículo del Dr. Cabot, publicado en Apuntes de Medicina Deportiva en 1965. Apunts Medicina de l” Esport (Castellano). 2015;50(187):111–20.
34.
ElMaraghy AW, Devereaux MW. A systematic review and comprehensive classification of pectoralis major tears. J Shoulder Elbow Surg. 2012;21(3):412–22.PubMedCrossRef
35.
Connell DA, Potter HG, Sherman MF, et al. Injuries of the pectoralis major muscle: evaluation with MR imaging. Radiology. 1999;210(3):785–91.PubMedCrossRef
36.
Jackson DW, Feagin JA. Quadriceps contusions in young athletes: relation of severity of injury to treatment and prognosis. J Bone Joint Surg Am. 1973;55(1):95–105.PubMedCrossRef
37.
Malliaropoulos N, Papacostas E, Kiritsi O, et al. Posterior thigh muscle injuries in elite track and field athletes. Am J Sports Med. 2010;38(9):1813–9.PubMedCrossRef
38.
Cohen SB, Towers JD, Zoga A, et al. Hamstring injuries in professional football players: magnetic resonance imaging correlation with return to play. Sports Health. 2011;3(5):423–30.PubMedPubMedCentralCrossRef
39.
Hamilton B, Valle X, Rodas G, et al. Classification and grading of muscle injuries: a narrative review. Br J Sports Med. 2015;49(5):306.PubMedCrossRef
40.
Ekstrand J, Askling C, Magnusson H, et al. Return to play after thigh muscle injury in elite football players: implementation and validation of the Munich muscle injury classification. Br J Sports Med. 2013;47(12):769–74.PubMedPubMedCentralCrossRef
41.
Patel A, Chakraverty J, Pollock N, et al. British athletics muscle injury classification: a reliability study for a new grading system. Clin Radiol. 2015;70(12):1414–20.PubMedCrossRef
42.
Tol JL, Hamilton B, Best TM. Palpating muscles, massaging the evidence? An editorial relating to ‘Terminology and classification of muscle injuries in sport: The Munich consensus statement’. Br J Sports Med. 2013;47(6):340–1.PubMedPubMedCentralCrossRef
43.
Warren P, Gabbe BJ, Schneider-Kolsky M, et al. Clinical predictors of time to return to competition and of recurrence following hamstring strain in elite Australian footballers. Br J Sports Med. 2010;44(6):415–9.PubMedCrossRef
44.
Lempainen L, Banke IJ, Johansson K, et al. Clinical principles in the management of hamstring injuries. Knee Surg Sports Traumatol Arthrosc. 2015;23(8):2449–56.PubMedCrossRef
45.
46.
47.
Fuller CW, Ekstrand J, Junge A, et al. Consensus statement on injury definitions and data collection procedures in studies of football (soccer) injuries. Scand J Med Sci Sports. 2006;16(2):83–92.PubMedCrossRef
48.
Huard J, Li Y, Fu FH. Muscle injuries and repair: current trends in research. J Bone Joint Surg Am. 2002;84-A(5):822–32.
49.
Jarvinen TA, Jarvinen TL, Kaariainen M, et al. Muscle injuries: optimising recovery. Best Pract Res Clin Rheumatol. 2007;21(2):317–31.PubMedCrossRef
50.
Best TM, Hunter KD. Muscle injury and repair. Phys Med Rehabil Clin N Am. 2000;11(2):251–66.PubMed
51.
Askling CM, Tengvar M, Saartok T, et al. Acute first-time hamstring strains during slow-speed stretching: clinical, magnetic resonance imaging, and recovery characteristics. Am J Sports Med. 2007;35(10):1716–24.PubMedCrossRef
52.
Askling CM, Malliaropoulos N, Karlsson J. High-speed running type or stretching-type of hamstring injuries makes a difference to treatment and prognosis. Br J Sports Med. 2012;46(2):86–7.PubMedCrossRef
53.
Garrett WE, Jr., Nikolaou PK, Ribbeck BM, et al. The effect of muscle architecture on the biomechanical failure properties of skeletal muscle under passive extension. Am J Sports Med. 1988;16(1):7–12.
54.
Garrett WE, Jr., Safran MR, Seaber AV, et al. Biomechanical comparison of stimulated and nonstimulated skeletal muscle pulled to failure. Am J Sports Med. 1987;15(5):448–54.
55.
Koulouris G, Connell D. Evaluation of the hamstring muscle complex following acute injury. Skeletal Radiol. 2003;32(10):582–9.PubMedCrossRef
56.
De Smet AA, Best TM. MR imaging of the distribution and location of acute hamstring injuries in athletes. AJR Am J Roentgenol. 2000;174(2):393–9.PubMedCrossRef
57.
Koh ES, McNally EG. Ultrasound of skeletal muscle injury. Semin Musculoskelet Radiol. 2007;11(2):162–73.PubMedCrossRef
58.
Taylor DC, Dalton JD, Jr., Seaber AV, et al. Experimental muscle strain injury: early functional and structural deficits and the increased risk for reinjury. Am J Sports Med. 1993;21(2):190–4.
59.
Garrett WE Jr, Rich FR, Nikolaou PK, et al. Computed tomography of hamstring muscle strains. Med Sci Sports Exerc. 1989;21(5):506–14.PubMedCrossRef
60.
Hughes Ct, Hasselman CT, Best TM, et al. Incomplete, intrasubstance strain injuries of the rectus femoris muscle. Am J Sports Med. 1995;23(4):500–6.
61.
Armfield DR, Kim DH, Towers JD, et al. Sports-related muscle injury in the lower extremity. Clin Sports Med. 2006;25(4):803–42.PubMedCrossRef
62.
Slavotinek JP, Verrall GM, Fon GT. Hamstring injury in athletes: using MR imaging measurements to compare extent of muscle injury with amount of time lost from competition. AJR Am J Roentgenol. 2002;179(6):1621–8.PubMedCrossRef
63.
Cross TM, Gibbs N, Houang MT, et al. Acute quadriceps muscle strains: magnetic resonance imaging features and prognosis. Am J Sports Med. 2004;32(3):710–9.
64.
Connell DA, Schneider-Kolsky ME, Hoving JL, et al. Longitudinal study comparing sonographic and MRI assessments of acute and healing hamstring injuries. AJR Am J Roentgenol. 2004;183(4):975–84.PubMedCrossRef
65.
Boutin RD, Fritz RC, Steinbach LS. Imaging of sports-related muscle injuries. Radiol Clin North Am. 2002;40(2):333–62, vii.
66.
Beiner JM, Jokl P. Muscle contusion injury and myositis ossificans traumatica. Clin Orthop Relat Res. 2002;403(403 Suppl.):S110–9.CrossRef
67.
68.
69.
Thorsson O, Lilja B, Nilsson P, et al. Immediate external compression in the management of an acute muscle injury. Scand J Med Sci Sports. 1997;7(3):182–90.PubMedCrossRef
70.
Passerieux E, Rossignol R, Letellier T, et al. Physical continuity of the perimysium from myofibers to tendons: involvement in lateral force transmission in skeletal muscle. J Struct Biol. 2007;159(1):19–28.PubMedCrossRef
71.
Huijing PA. Epimuscular myofascial force transmission: a historical review and implications for new research. International Society of Biomechanics Muybridge Award Lecture, Taipei, 2007. J Biomech. 2009;42(1):9–21.PubMedCrossRef
72.
Stecco C, Gagey O, Macchi V, et al. Tendinous muscular insertions onto the deep fascia of the upper limb. First part: anatomical study. Morphologie. 2007;91(292):29–37.PubMedCrossRef
73.
Gillies AR, Lieber RL. Structure and function of the skeletal muscle extracellular matrix. Muscle Nerve. 2011;44(3):318–31.PubMedPubMedCentral
74.
75.
Balius R, Maestro A, Pedret C, et al. Central aponeurosis tears of the rectus femoris: practical sonographic prognosis. Br J Sports Med. 2009;43(11):818–24.PubMedCrossRef
76.
Brukner P, Connell D. ‘Serious thigh muscle strains’: beware the intramuscular tendon which plays an important role in difficult hamstring and quadriceps muscle strains. Br J Sports Med. 2016;50(4):205–8.PubMedCrossRef
77.
Comin J, Malliaras P, Baquie P, et al. Return to competitive play after hamstring injuries involving disruption of the central tendon. Am J Sports Med. 2013;41(1):111–5.PubMedCrossRef
78.
Thorsson O, Lilja B, Nilsson P, et al. Immediate external compression in the management of an acute muscle injury. Scand J Med Sci Sports. 1997;7(3):182–90.PubMedCrossRef
79.
Slavotinek JP. Muscle injury: the role of imaging in prognostic assignment and monitoring of muscle repair. Semin Musculoskelet Radiol. 2010;14(2):194–200.PubMedCrossRef
80.
Schneider-Kolsky ME, Hoving JL, Warren P, et al. A comparison between clinical assessment and magnetic resonance imaging of acute hamstring injuries. Am J Sports Med. 2006;34(6):1008–15.PubMedCrossRef
81.
Crisco JJ, Jokl P, Heinen GT, et al. A muscle contusion injury model: biomechanics, physiology, and histology. Am J Sports Med. 1994;22(5):702–10.
82.
Gillies AR, Lieber RL. Structure and function of the skeletal muscle extracellular matrix. Muscle Nerve. 2011;44(3):318–31.PubMedPubMedCentral
83.
Askling CM, Tengvar M, Saartok T, et al. Proximal hamstring strains of stretching type in different sports: injury situations, clinical and magnetic resonance imaging characteristics, and return to sport. Am J Sports Med. 2008;36(9):1799–804.PubMedCrossRef
84.
Pollock N, Patel A, Chakraverty J, et al. Time to return to full training is delayed and recurrence rate is higher in intratendinous (‘c’) acute hamstring injury in elite track and field athletes: clinical application of the British Athletics Muscle Injury Classification. Br J Sports Med. 2016;50(5):305–10.PubMedCrossRef
85.
Reurink G, Goudswaard GJ, Oomen HG, et al. Reliability of the active and passive knee extension test in acute hamstring injuries. Am J Sports Med. 2013;41(8):1757–61.PubMedCrossRef
86.
Seward H, Orchard J, Hazard H, et al. Football injuries in Australia at the elite level. Med J Aust. 1993;159(5):298–301.PubMed
87.
Pomeranz SJ, Heidt RS Jr. MR imaging in the prognostication of hamstring injury: work in progress. Radiology. 1993;189(3):897–900.PubMedCrossRef
88.
Askling C, Saartok T, Thorstensson A. Type of acute hamstring strain affects flexibility, strength, and time to return to pre-injury level. Br J Sports Med. 2006;40(1):40–4.PubMedPubMedCentralCrossRef
89.
Koulouris G, Connell D. Imaging of hamstring injuries: therapeutic implications. Eur Radiol. 2006;16(7):1478–87.PubMedCrossRef
90.
Bianchi S, Martinoli C, Waser NP, et al. Central aponeurosis tears of the rectus femoris: sonographic findings. Skelet Radiol. 2002;31(10):581–6.CrossRef
91.
Petersen J, Thorborg K, Nielsen MB, et al. The diagnostic and prognostic value of ultrasonography in soccer players with acute hamstring injuries. Am J Sports Med. 2014;42(2):399–404.PubMedCrossRef
92.
Sanfilippo JL, Silder A, Sherry MA, et al. Hamstring strength and morphology progression after return to sport from injury. Med Sci Sports Exerc. 2013;45(3):448–54.PubMedPubMedCentralCrossRef
93.
Askling CM, Tengvar M, Thorstensson A. Acute hamstring injuries in Swedish elite football: a prospective randomised controlled clinical trial comparing two rehabilitation protocols. Br J Sports Med. 2013;47(15):953–9.PubMedCrossRef
94.
95.
Wangensteen A, Almusa E, Boukarroum S, et al. MRI does not add value over and above patient history and clinical examination in predicting time to return to sport after acute hamstring injuries: a prospective cohort of 180 male athletes. Br J Sports Med. 2015;49(24):1579–87.PubMedCrossRef
96.
Hamilton B, Whiteley R, Almusa E, et al. Excellent reliability for MRI grading and prognostic parameters in acute hamstring injuries. Br J Sports Med. 2014;48(18):1385–7.PubMedCrossRef
97.
Verrall GM, Slavotinek JP, Barnes PG, et al. Clinical risk factors for hamstring muscle strain injury: a prospective study with correlation of injury by magnetic resonance imaging. Br J Sports Med. 2001;35(6):435–9 (discussion 40).
98.
Comin J, Malliaras P, Baquie P, et al. Return to competitive play after hamstring injuries involving disruption of the central tendon. Am J Sports Med. 2013;41(1):111–5.PubMedCrossRef
99.
Balius R, Maestro A, Pedret C, et al. Central aponeurosis tears of the rectus femoris: practical sonographic prognosis. Br J Sports Med. 2009;43(11):818–24.PubMedCrossRef
100.
Askling CM, Tengvar M, Saartok T, 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. 2007;35(2):197–206.PubMedCrossRef
101.
Woodhouse JB, McNally EG. Ultrasound of skeletal muscle injury: an update. Semin Ultrasound CT MR. 2011;32(2):91–100.PubMedCrossRef
102.
Balius R, Alomar X, Rodas G, et al. The soleus muscle: MRI, anatomic and histologic findings in cadavers with clinical correlation of strain injury distribution. Skelet Radiol. 2013;42(4):521–30.CrossRef
103.
Koulouris G, Ting AY, Jhamb A, et al. Magnetic resonance imaging findings of injuries to the calf muscle complex. Skelet Radiol. 2007;36(10):921–7.CrossRef
104.
Kassarjian A, Rodrigo RM, Santisteban JM. Current concepts in MRI of rectus femoris musculotendinous (myotendinous) and myofascial injuries in elite athletes. Eur J Radiol. 2012;81(12):3763–71.PubMedCrossRef
105.
Pedowitz R, Chung CB, Resnick D. Magnetic resonance imaging in orthopedic sports medicine. New York: Springer; 2008.
106.
Pasta G, Nanni G, Molini L, et al. Sonography of the quadriceps muscle: Examination technique, normal anatomy, and traumatic lesions. J Ultrasound. 2010;13(2):76–84.PubMedPubMedCentralCrossRef
107.
Douis H, Gillett M, James SL. Imaging in the diagnosis, prognostication, and management of lower limb muscle injury. Semin Musculoskelet Radiol. 2011;15(1):27–41.PubMedCrossRef
108.
Bianchi S, Martinoli C. Ultrasound of the musculoskeletal system. Berlin: Springer; 2007.
109.
Kumka M, Bonar J. Fascia: a morphological description and classification system based on a literature review. J Can Chiropr Assoc. 2012;56(3):179–91.PubMedPubMedCentral
110.
Wendell-Smith C. Fascia: an illustrative problem in international terminology. Surg Radiol Anat. 1998;19(5):273–7.CrossRef
111.
Opar DA, Williams MD, Shield AJ. Hamstring strain injuries: factors that lead to injury and re-injury. Sports Med. 2012;42(3):209–26.PubMedCrossRef
112.
Malm C, Yu JG. Exercise-induced muscle damage and inflammation: re-evaluation by proteomics. Histochem Cell Biol. 2012;138(1):89–99.PubMedCrossRef
113.
Carlsson L, Yu JG, Moza M, et al. Myotilin: a prominent marker of myofibrillar remodelling. Neuromuscular Disord. 2007;17(1):61–8.CrossRef
114.
Yu JG, Furst DO, Thornell LE. The mode of myofibril remodelling in human skeletal muscle affected by DOMS induced by eccentric contractions. Histochem Cell Biol. 2003;119(5):383–93.PubMed
115.
McHugh MP. Recent advances in the understanding of the repeated bout effect: the protective effect against muscle damage from a single bout of eccentric exercise. Scand J Med Sci Sports. 2003;13(2):88–97.PubMedCrossRef
116.
Paulsen G, Mikkelsen UR, Raastad T, et al. Leucocytes, cytokines and satellite cells: what role do they play in muscle damage and regeneration following eccentric exercise? Exerc Immunol Rev. 2012;18:42–97.PubMed
117.
McKune AJ, Semple SJ, Peters-Futre EM. Acute exercise-induced muscle injury. Biol Sport. 2012;29(1):3–10.CrossRef
118.
Hughes JD. Metabolic alterations in skeletal muscle following eccentric exercise induced damage. A thesis submitted in partial fulfilment of the requirements for the degree of Doctor of Philosophy, Massey University, Palmerston North, New Zealand; 2011.
119.
Kerkhoffs GM, van Es N, Wieldraaijer T, et al. Diagnosis and prognosis of acute hamstring injuries in athletes. Knee Surg Sports Traumatol Arthrosc. 2013;21(2):500–9.PubMedCrossRef
120.
Malliaropoulos N, Papalexandris S, Papalada A, et al. The role of stretching in rehabilitation of hamstring injuries: 80 athletes follow-up. Med Sci Sports Exerc. 2004;36(5):756–9.PubMedCrossRef
121.
O’Sullivan K, McAuliffe S, Deburca N. The effects of eccentric training on lower limb flexibility: a systematic review. Br J Sports Med. 2012;46(12):838–45.PubMedCrossRef
122.
Hibbert O, Cheong K, Grant A, et al. A systematic review of the effectiveness of eccentric strength training in the prevention of hamstring muscle strains in otherwise healthy individuals. N Am J Sports Phys Ther. 2008;3(2):67–81.PubMedPubMedCentral
123.
Kraemer R, Knobloch K. A soccer-specific balance training program for hamstring muscle and patellar and achilles tendon injuries: an intervention study in premier league female soccer. Am J Sports Med. 2009;37(7):1384–93.PubMedCrossRef
124.
Malliaropoulos N, Mendiguchia J, Pehlivanidis H, et al. Hamstring exercises for track and field athletes: injury and exercise biomechanics, and possible implications for exercise selection and primary prevention. Br J Sports Med. 2012;46(12):846–51.PubMedCrossRef
125.
Kubota J, Ono T, Araki M, et al. Non-uniform changes in magnetic resonance measurements of the semitendinosus muscle following intensive eccentric exercise. Eur J Appl Physiol. 2007;101(6):713–20.PubMedCrossRef
126.
Mendiguchia J, Arcos AL, Garrues MA, et al. The use of MRI to evaluate posterior thigh muscle activity and damage during nordic hamstring exercise. J Strength Cond Res. 2013;27(12):3426–35.PubMedCrossRef
127.
Mendiguchia J, Garrues MA, Cronin JB, et al. Nonuniform changes in MRI measurements of the thigh muscles after two hamstring strengthening exercises. J Strength Cond Res. 2013;27(3):574–81.PubMedCrossRef
128.
Sherry MA, Best TM, Silder A, et al. Hamstring strains: basic science and clinical research applications for preventing the recurrent injury. Strength Cond J. 2011;33(3):56–71.CrossRef
Metadata
Title
Muscle Injuries in Sports: A New Evidence-Informed and Expert Consensus-Based Classification with Clinical Application
Authors
Xavier Valle
Eduard Alentorn-Geli
Johannes L. Tol
Bruce Hamilton
William E. Garrett Jr
Ricard Pruna
Lluís Til
Josep Antoni Gutierrez
Xavier Alomar
Ramón Balius
Nikos Malliaropoulos
Joan Carles Monllau
Rodney Whiteley
Erik Witvrouw
Kristian Samuelsson
Gil Rodas
Publication date
01-07-2017
Publisher
Springer International Publishing
Published in
Sports Medicine / Issue 7/2017
Print ISSN: 0112-1642
Electronic ISSN: 1179-2035
DOI
https://doi.org/10.1007/s40279-016-0647-1

Other articles of this Issue 7/2017

Sports Medicine 7/2017 Go to the issue

Letter to the Editor

Author’s Reply to Bender and Samuels “Does Elite Sport Degrade Sleep Quality? A Systematic Review”

Review Article

Step Counting: A Review of Measurement Considerations and Health-Related Applications

Systematic Review

Determinants of Change in Physical Activity in Children 0–6 years of Age: A Systematic Review of Quantitative Literature

Systematic Review

Criteria for Progressing Rehabilitation and Determining Return-to-Play Clearance Following Hamstring Strain Injury: A Systematic Review

Current Opinion

Will the Conscious–Subconscious Pacing Quagmire Help Elucidate the Mechanisms of Self-Paced Exercise? New Opportunities in Dual Process Theory and Process Tracing Methods

Systematic Review

Association Between Exercise-Induced Hyperthermia and Intestinal Permeability: A Systematic Review