Sport Injury Classification: Difference between revisions
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*The actual injury can occur some distance from the impact site. For example, falling on an outstretched hand can result in a dislocated shoulder. | *The actual injury can occur some distance from the impact site. For example, falling on an outstretched hand can result in a dislocated shoulder. | ||
*The injury does not result from physical contact with an object or person, but from internal forces built up by the actions of the performer, such as may be caused by over-stretching, poor technique, fatigue and lack of tness. | *The injury does not result from physical contact with an object or person, but from internal forces built up by the actions of the performer, such as may be caused by over-stretching, poor technique, fatigue and lack of tness. | ||
Common Acute Injuries include: | |||
*Sprains | |||
*Strains | |||
*Fractures | |||
*Dislocations | |||
=== Overuse === | === Overuse === | ||
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Introduction[edit | edit source]
Sport injuries are diverse in terms of the mechanism of injury, how they present in individuals, and how the injury should be managed. Defining exactly what a sports injury is can be problematic and definitions are not consistent. According to Engebretsen et al (2012) a sports injury may be defined as "damage to the tissues of the body that occurs as a result of sport or exercise" [1]. While There are many ways to classify sports injuries based on the time taken for the tissues to become injured, tissue type affected, severity of the injury, and which injury the individual presents with.
Injury Classification [edit | edit source]
Time
[edit | edit source]
This is one of the most common methods of classifying sports injuries, and relies on the sports therapist knowing the mechanism of injury and the onset of the symptoms.
Acute[edit | edit source]
Injury occurs suddenly to previously normal tissue. Acute injuries occur due to sudden trauma to the tissue, with the symptoms of acute injuries presenting themselves almost immediately. The principle in this instance is that the force exerted at the time of injury on the tissue (ie. muscle, tendon, ligament, and bone) exceeds the strength of that tissue.Forces commonly involved in acute injury are either a direct or indirect.
Direct / Contact Injury
A direct injury is caused by an external blow or force.
- A collision with another person (for example, during a tackle in rugby union)
- Being struck with an object (for example, a cricket ball or hockey stick).
Indirect / Non-Contact Injury
An indirect injury can occur in two ways:
- The actual injury can occur some distance from the impact site. For example, falling on an outstretched hand can result in a dislocated shoulder.
- The injury does not result from physical contact with an object or person, but from internal forces built up by the actions of the performer, such as may be caused by over-stretching, poor technique, fatigue and lack of tness.
Common Acute Injuries include:
- Sprains
- Strains
- Fractures
- Dislocations
Overuse[edit | edit source]
Any repetitive activity can lead to an overuse injury. Overuse injuries occur over a period of time, usually due to excessive and repetitive loading of the tissue, with symptoms presenting gradually. Little or no pain might be experienced in the early stages of these injuries and the athlete might continue to place pressure on the injured site.This prevents the site being given the necessary time to heal. In contrast to acute injuries, the cause of overuse injuries is often much less obvious. The principle in overuse injury is that repetitive microtrauma overloads the capacity of the tissue to repair itself [2].
According to Clarensen (2014) [2] overuse injuries are a problem in many sports with athletes exposed to high training loads, tight competition schedules and insufficient recovery thought to be particularly at risk; especially when participating in sports involving repetitive movements or impacts. For example, approximately two-thirds of athletes, who traiedn between 20 and 35 hours per week, sustained a performance-limiting overuse injury in athletics over a one year period [3]. Similarly between 29% and 44% of elite volleyball players, who often perform over 500 jumps per week [4], report symptoms of jumper’s knee [5] [6]. While it is recognised that overuse injuries are common in elite sport they also occur among recreational athletes [7], young athletes [8], and even among sedentary individuals after transient increases in activity [9].
To better understand overuse injury it helps to think in terms of what is happening at the microscopic level to the tissue that has been “stressed” during the repetitive workouts. During exercise the tissues (muscles, tendons, bones, ligaments, etc) experience excessive physiological stress. When the activity is over the tissues undergo adaptation so as to be stronger to be able to withstand a similar stress in the future if required. Overuse injury occurs when the adaptive capability of the tissue is exceeded and tissue injury then develops. That is, in the over- zealous athlete there is not enough time for adaptation to occur before the next work out and the cumulative tissue damage eventually exceeds a threshold for that tissue causing pain and tissue dysfunction. The adaptive capability of the tissue may be exceeded secondary to excessive repetitive forces attributable to one or more commonly a combination of risk factors including;
|
Intrinsic |
Extrinsic |
|---|---|
|
Age Size/Body Composition Bone Health Poor Biomechanics Lack of Flexibility Muscle Imbalance Muscle Weakness |
Training Errors
Equipment
Playing Surfaces
|
Common Overuse Injuries include:
• Patello Femoral Joint Dysfunction
• Medial Tibial Stress Syndrome
• Iliotibial Band Syndrome
Tissue Type[edit | edit source]
Soft Tissue[edit | edit source]
Ligament
Tendon
Muscle
Skin
Hard Tissue[edit | edit source]
Bone
Resources[edit | edit source]
Video[edit | edit source]
Recent Related Research (from Pubmed) [edit | edit source]
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References [edit | edit source]
References will automatically be added here, see adding references tutorial.
- ↑ Engebretsen L, Laprade R, McCrory P, Meeuwisse W. The IOC manual of sports injuries: an illustrated guide to the management of injuries in physical activity. Bahr R, editor. John Wiley & Sons; 2012 Jun 12.
- ↑ 2.0 2.1 Clarsen B. Overuse injuries in sport: development, validation and application of a new surveillance method.
- ↑ Jacobsson J, Timpka T, Kowalski J, Nilsson S, Ekberg J, Dahlstrom O, Renstrom PA. Injury patterns in Swedish elite athletics: annual incidence, injury types and risk factors. Br J Sports Med 2013: 47: 941-952.
- ↑ Bahr MA, Bahr R. Jump frequency may contribute to risk of jumper's knee: a study of interindividual and sex differences in a total of 11 943 jumps video recorded during training and matches in young elite volleyball players. Br J Sports Med 2014: doi: 10.1136/bjsports-2014- 093593.
- ↑ Lian Ø, Engebretsen L, Bahr R. Prevalence of jumper's knee among elite athletes from different sports: a cross-sectional study. Am J Sports Med 2005: 33: 561-567.
- ↑ Bahr R. No injuries, but plenty of pain? On the methodology for recording overuse symptoms in sports. Br J Sports Med 2009: 43: 966-972.
- ↑ Zwerver J, Bredeweg SW, van den Akker-Scheek I. Prevalence of Jumper's knee among nonelitefckLRathletes from different sports: a cross-sectional survey. Am J Sports Med 2011: 39: 1984-1988.
- ↑ DiFiori JP, Benjamin HJ, Brenner JS, Gregory A, Jayanthi N, Landry GL, Luke A. Overuse injuries and burnout in youth sports: a position statement from the American Medical Society for Sports Medicine. Br J Sports Med 2014: 48: 287-288.
- ↑ Stovitz SD, Johnson RJ. "Underuse" as a cause for musculoskeletal injuries: is it time that we started reframing our message? Br J Sports Med 2006: 40: 738-739.
