Injury Type and Classification in Sport

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Introduction[edit | edit source]

Being physically active or taking part in sports have many health benefits, but there is also the risk of injury. Sports injuries can occur anytime during training sessions or during when taking part in competition and various musculoskeletal connective tissue can be affected by injury. In sports epidemiology injury surveillance is important as it is key to understanding injuries and contributes to the development of injury prevention programmes.

Definitions[edit | edit source]

The International Olympic Committee Injury and Illness Epidemiology Consensus group defines injury as[1]:

“Injury is tissue damage or other derangement of normal physical function due to participation in sports, resulting from rapid or repetitive transfer of kinetic energy.”

Classification of an injury refers to "the process of describing or categorising an injury (i.e. by its location, mechanism or underlying pathology)"[2]

The grade of an injury refers to the severity of the injury.[2]

Relationship of Injury to Sports Activity[edit | edit source]

Injuries may result[1]:

  • Directly from participation in sport (can be during competition or training)
    • Examples of this may include: collision between players or overuse from repetitive training
  • Indirectly from participation in activities related to competition or training.
    • Example: athlete slipping and sustaining an injury when in the Olympic village
  • Activities not related to participation in sports.
    • Example: athlete is involved in a car crash

Mode of Onset[edit | edit source]

Traditionally injuries are classified as injuries with a sudden onset (acute injury) or injuries with a gradual onset (overuse), but one also needs to consider an acute injury due to overuse.[1]

  • Acute episode = sudden injury because of an exchange of large quantities of kinetic energy (collision between athletes)
    • Mechanism is acute, and the presentation is sudden onset
  • Overuse episode = gradual accumulation of low energy transfer over time (development of tendinopathy induced by repetitive movement or stress fracture)
    • Mechanism is repetitive, and the presentation is a gradual onset
  • Acute episode due to overuse = combination of both mechanisms ( for example an athlete with a repetitive training regime resulting in tendinopathy or tendon weakness, but sustains an acute tendon tear during a jump)
    • Mechanism is repetitive, and the presentation is a sudden onset

Often a thorough subjective assessment and history taking will provide insight into the mode of onset. Radiological investigations may also be helpful in determining if an injury was an acute episode or whether it was an acute episode due to overuse.[3]

Table 1. Examples: Assessment of Mode of Onset[1]
Mechanism Presentation Example
Acute Sudden onset
  • Sprinter pulls up suddenly in a race, stops and hobbles a few steps, in pain with a hamstring injury.
  • Footballer falls on an outstretched hand, putting all the weight through the palm of the hand and hyperextending the wrist resulting in a scaphoid fracture
Repetitive Gradual onset
  • Swimmer experiences a gradual increase in shoulder pain during the season, MRI indicates rotator cuff tendinopathy
  • Dancer experiences progressive pain with and after activity and tenderness over the second metatarsal. Imaging indicates stress fracture of the second metatarsal
Repetitive Sudden onset
  • Gymnast experiences a tibial fracture on landing from a vault; CT imaging reveals pre-existing morphological changes consistent with bone stress injury

Mechanism of Injury[edit | edit source]

This can be as a result of direct contact or non-contact mechanisms.

Table 2. Examples: Classification as a Mechanism for Injuries[1]
Injury Type of Contact Example
Non-contact No evidence of disruption of a player's movement patterns Basketball player landing and twisting ankle with no contact with other players
Contact

Indirect

Through another athlete ACL tear in a football player landing off-balance after being pushed on his shoulder by an opponent while in the air
Contact

Indirect

Through an object Downhill skier suffers concussion from a crash after hitting the gate with his knee
Contact

Direct

With another athlete Rugby player sustains an ACL tear as a result of a direct tackle to the knee
Contact

Direct

With an object Volleyball player being hit in the face by a spiked ball, resulting in a concussion

Body Region Categories[edit | edit source]

Injuries can be further classified into the specific body region and more specifically the area involved.[1]

Table 3. Categories of Body Regions and Areas for Injuries[1]
Region Body Area Region Body Area
Head and neck Head

Neck

Upper limb Shoulder

Upper arm

Elbow

Forearm

Wrist

Hand

Lower Limb Hip/groin

Thigh

Knee

Lower leg

Ankle

Foot

Trunk Chest

Thoracic spine

Lumbosacral

Abdomen

Unspecified Region unspecified
Lower limb Hip/groin

Thigh

Knee

Lower leg

Ankle

Foot

Multiple regions Single injury crossing ≥ 2 areas

Tissue and Pathology Type Categories[edit | edit source]

Further classification can be to the specific tissue type and pathology involved. Table 4 indicates the main tissue and pathology types. Have a look at Table 5 in this article for more detail and notes on these categories. For example: Tendinopathy includes the paratenon, partial tear and tendon subluxation and bone stress injury will include bone marrow oedema, stress fracture and periostitis.

Table 4. Categories of Tissue and Pathology Types for Injuries[1]
Tissue Pathology Type Tissue Pathology Type
Muscle/tendon Muscle injury

Muscle contusion

Muscle compartment syndrome

Tendinopathy

Tendon rupture

Ligament/Joint capsule Joint sprain (ligament tear or acute instability episode)

Chronic instability

Nervous Brain/spinal cord injury

Peripheral nerve injury

Superficial tissue/Skin Contusion (superficial)

Laceration

Abrasion

Bone Fracture

Bone stress injury

Bone contusion

Avascular necrosis

Physis injury

Vessels Vascular trauma
Cartilage/Synovium/Bursa Cartilage injury

Arthritis

Synovitis/capsulitis

Bursitis

Stump Stump injury
Internal organs Organ trauma Non-specific Injury without tissue type specified

See also: Sport Injury Classification for more detail on classifying ligament, tendon and bone and articular cartilage injuries.

Muscle Classification[edit | edit source]

Traditional Classification Systems[edit | edit source]

Muscle injuries are a common injury in sports. Historically a three-tier grading system based on clinical signs had been used to guide the prognosis of a muscle strain. Grading systems are useful in that it provides an indication of the severity or extent of the injury. With imaging advancements such as MRI and Ultrasonography, there is now the benefit of combining clinical and radiological findings and this has led to “new” muscle injury grading and classification systems over the last couple of years. (Brukner and Khan)

The table below is from the Munich Consensus statement on Terminology and classification of muscle injuries in sport and provide an overview of previous muscle injury classification systems.[4]

Table 5. Overview of previous muscle injury classification system (from Terminology and classification of muscle injuries in sport: The Munich consensus statement[4])
O'Donoghue

1962

Ryan 1969

(initially for quadriceps)

Takebayashi 1995, Peetrons 2002

(Ultrasound-based)

Stoller 2007

(MRI-based)

Grade I No appreciable tissue tearing,

No loss of function or strength,

Low-grade inflammatory response

Tear of few muscle fibres,

Facia in tact

No abnormalites or diffuse bleeding with/without focal fibre rupture,

less than 5% of the muscle involved

MRI-negative = 0% structural damage, Hyperintense oedema with or without haemorrhage
Grade II Moderate amount of fibres torn,

Facia in tact

Partial rupture: focal fibre rupture more than 5% of the muscle involved with/without fascial injury MRI-positive with tearing up to 50% of the muscle fibres.

Possible hyperintense focal defect and partial retraction of muscle fibres

Grade III Many fibres torn with partial tearing of fascia Complete muscle rupture with retraction,

fascial injury

Muscle rupture = 100% structural damage.

Complete tearing with or without muscle retraction

Grade IV none Complete tear of the muscle and fascia of the muscle-tendon unit none none
Modern muscle injury classification systems[edit | edit source]
  • Munich Consensus System
    • International clinical and basic science experts developed a comprehensive muscle injury classification and grading system.
    • Key points from Munich Consensus System:
      • Classification differentiates between direct (contusion and laceration) and indirect muscle injury
      • Indirect muscle injuries further classified as functional or structural injuries
      • Further subclassified into type of injury and subclassified into either a diagnostic group (e.g. fatigue induced muscle disorder ; delayed onset muscle soreness (DOMS); or muscle or spine related neuromuscular disorder) or severity grade (minor partial, moderate, subtotal, complete or avulsion).
      • Muscle injury is approached in a comprehensive way and includes descriptors such as acute, overuse, direct and indirect injury.

Read the full article here: Terminology and classification of muscle injuries in sport: The Munich consensus statement[4]

[5]

  • British athletics system
    • Pollock et al[6] designed a classification for non-contact muscle injuries
    • The system grades injury from 0 – 4, based on clinical and MRI features
    • The injury is then sub-classified further to reflect the principle anatomic structures involved:
      • a = myofascial; b = within muscle usually at the musculotendinous junction; c = intra-tendinous tears
    • Grade 0 injuries – MRI negative and described as a “focal neuromuscular injury” or a muscle injury consistent with DOMS
    • If there is suspicion of a neural component involved  - N can be applied as additional differentiator
    • Grades 1 -3 refer to small, moderate or extensive tears respectively to the muscle tissue (determined by the extent of oedema and tissue disruption, as well as by tissue involved)
    • Grade 4 refer to complete tears of either muscle or tendon
    • BAMIC (British Athletics Muscle Injury Classification) provides a framework for clinical reasoning and rehabilitation decision-making.[7]
    • Read the full article here: British athletics muscle injury classification: a new grading system[6]
  • Chan System
    • Chan et al[8] proposed a 3-layered anatomical classification system, this is mainly an imaging based classification system
    • The injury’s anatomical location is proximal musculotendinous junction, muscle or distal musculotendinous junction
    • The injury is then sub-classified as proximal, middle or distal
    • Thereafter the injury is defined by the principle tissue involved (e.g. intramuscular, myofascial, perifascial, myotendinous or a combination)
    • Read this article here: Acute muscle strain injuries: a proposed new classification system[9]

Table 6 provides an overview of some of the newer muscle injury classification systems.

Table 6. Comparison of recent muscle injury classification systems
Chan et al., 2012[8] Mueller-Wolfahrt et al., 2013[4] Pollock et al., 2014[6] Valle et al., 2017[10]
Grading based in radiological finding and site of lesion
  • I = Proximal musculotendinous junction
  • II = Muscle
    • A = Proximal
    • B = Middle
    • C = Distal
      • a = Intramuscular
      • b = Myofascial
      • c = Myofascial/perifascial
      • d = Myotendinous
      • e = Combined
  • III = Distal musculotendinous junction
 A. Indirect muscle disorder/injury

Functional muscle disorder

Type 1:

  • Overexertion-related muscle disorder
    • 1A Fatigue induced muscle disorder
    • 1B Delayed onset muscle soreness (DOMS)

Type 2:

  • Neuromuscular muscle disorder
    • 2A Spine-related neuromuscular
    • 2B Muscle-related neuromuscular

Structural muscle injury

Type 3:

  • Partial muscle tear
    • 3A Minor partial muscle tear
    • 3B Moderate partial muscle tear
  • Type 4: (Sub)total tear
    • Subtotal or complete muscle tear
    • Tendinous avulsion

B. Direct muscle injury

  • Contusion
  • Laceration
  • Grade 0: Referred pain
    • 0a - focal muscle soreness with normal MRI
    • 0b - generalised muscle soreness (DOMS) with normal MRI
  • Grade 1 - small injuries to the muscle
    • a = myofascial injury
    • b = muscle or musculotendinous junction
    • c = tendon involvement
  • Grade 2 - Moderate injuries (tears)
    • a = myofascial injury
    • b = muscle or musculotendinous junction
    • c = tendon involvement
  • Grade 3 = Extensive tears
    • a = myofascial injury
    • b = muscle or musculotendinous junction
    • c = tendon involvement
  • Grade 4 = Complete tears
    • a = myofascial injury
    • b = muscle or musculotendinous junction
    • c = tendon involvement
  • Mechanism of injury (M)
    • T = Direct
    • I = Indirect
  • Location of Injury (L)
    • P - injury located in proximal third of muscle belly
    • M - injury located in the middle third of muscle belly
    • D - injury located in the distal third of the muscle belly
  • Grading of severity (G)
    • 0 -3
    • based on MRI
  • No of muscle re-injuries (R)
    • 0 - 1st episode
    • 1 - 1st re-injury
    • 2 - 2nd re-injury...

Recent reviews investigating muscle injury classification system

Time for a paradigm shift in the classification of muscle injuries https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6189241/ - good discussion points

Classification and grading of muscle injuries: a narrative review

An update on the grading of muscle injuries: a narrative review from clinical to comprehensive systems

Workshops on Muscle Injuries by Bruce Hamilton - New Zealand.

https://www.youtube.com/watch?v=ja3hE3v2RZs

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Resources[edit | edit source]

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References[edit | edit source]

  1. 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 International Olympic Committee Injury and Illness Epidemiology Consensus Group, Bahr R, Clarsen B, Derman W, Dvorak J, Emery CA, Finch CF, Hägglund M, Junge A, Kemp S, Khan KM. International Olympic Committee consensus statement: methods for recording and reporting of epidemiological data on injury and illness in sports 2020 (including the STROBE extension for sports injury and illness surveillance (STROBE-SIIS)). Orthopaedic journal of sports medicine. 2020 Feb 14;8(2):2325967120902908
  2. 2.0 2.1 Hamilton B, Alonso JM, Best TM. Time for a paradigm shift in the classification of muscle injuries. Journal of sport and health science. 2017 Sep 1;6(3):255-61.
  3. Gatt, I. Injury type and classification. Physioplus. Course. 2022
  4. 4.0 4.1 4.2 4.3 Mueller-Wohlfahrt HW, Haensel L, Mithoefer K, Ekstrand J, English B, McNally S, Orchard J, van Dijk CN, Kerkhoffs GM, Schamasch P, Blottner D. Terminology and classification of muscle injuries in sport: the Munich consensus statement. British journal of sports medicine. 2013 Apr 1;47(6):342-50.
  5. Norris Health. Munich consensus on muscle injury in sport. Available from: https://www.youtube.com/watch?v=PhCxzDEE6Vc [last accessed 4/03/2022]
  6. 6.0 6.1 6.2 Pollock N, James SL, Lee JC, Chakraverty R. British athletics muscle injury classification: a new grading system. British journal of sports medicine. 2014 Sep 1;48(18):1347-51.
  7. Macdonald B, McAleer S, Kelly S, Chakraverty R, Johnston M, Pollock N. Hamstring rehabilitation in elite track and field athletes: applying the British athletics muscle injury classification in clinical practice. British journal of sports medicine. 2019 Dec 1;53(23):1464-73.
  8. 8.0 8.1 Chan O, Del Buono A, Best TM, Maffulli N. Acute muscle strain injuries: a proposed new classification system. Knee Surgery, Sports Traumatology, Arthroscopy. 2012 Nov;20(11):2356-62.
  9. Chan O, Del Buono A, Best TM, Maffulli N. Acute muscle strain injuries: a proposed new classification system. Knee Surgery, Sports Traumatology, Arthroscopy. 2012 Nov;20(11):2356-62.
  10. 10.0 10.1 Valle X, Alentorn-Geli E, Tol JL, Hamilton B, Garrett WE, Pruna R, Til L, Gutierrez JA, Alomar X, Balius R, Malliaropoulos N. Muscle injuries in sports: a new evidence-informed and expert consensus-based classification with clinical application. Sports medicine. 2017 Jul;47(7):1241-53.
  11. 11.0 11.1 Cohen S.B., Towers J.D., Zoga A., Irrgang J.J., Makda J., Deluca P.F. Hamstring injuries in professional football players: magnetic resonance imaging correlation with return to play. Sports Health. 2011;3:423–430
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