sports injuries
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Sports injuries. Chapter overview. Classifying and managing injuries • Classifying sports injuries page 259 • Soft-tissue injuries page 263 • Hard-tissue injuries page 267 • First aid page 270 Injury rehabilitation • Rehabilitation page 276 - PowerPoint PPT PresentationTRANSCRIPT
Chapter overview
Classifying and managing injuries
• Classifying sports injuries page 259
• Soft-tissue injuries page 263
• Hard-tissue injuries page 267
• First aid page 270
Injury rehabilitation
• Rehabilitation page 276
• Returning to play page 282
Now that you’ve finished … answers
If injuries are classified according to their cause, the three categories are:direct injuryindirect injuryoveruse injury.
If injuries are classified according to the type of body tissue damaged, the two categories are:soft-tissue injuryhard-tissue injury.
Direct injury
Caused by an external blow or force. Examples of injuries that result from external forces include
haematomas (corks) and bruises, joint and ligament damage, dislocations and bone fractures.
Indirect injury
Can occur due to a collision, but differs from direct injuries because the actual injury is some distance from the impact site. E.g. falling on outstretched hand and dislocating shoulder
Can occur from the actions of the athlete. Often the result of overstretching, poor technique, fatigue or lack of fitness; e.g., muscle strains and tears, and ligament sprains
Overuse injury
Occur when excessive and repetitive force is placed on the bones and connective tissues of the body.
Often occur when there is a change in training practices Examples of injuries that result from repetitive forces are stress
fractures (small cracks in the bone) and tendonitis (inflammation of a tendon).
Personal reflection
Have you ever had an overuse injury? What caused it?
Table 7.1 Overuse injuriesInjury Symptoms and
signsPossible causes Management
Shin soreness TendernessPain in shinsPain increases by running and jumpingSwelling
Increased activityPoor footwearPosture imbalanceMuscle imbalance
Decrease painful activity RICERPhysiotherapyCorrect footwearOrthotic control
Knee pain Pain around kneePain increased by sport, stairs, sitting, hillsSwellingDiscolouration
Increased activityPosture imbalancePoor footwearMuscle imbalanceGrowth spurt
Decrease activityRICERPhysiotherapyTapeCorrect footwearOrthotic control
Heel pain Tenderness over heelPain increased by running, jumping
Tight calf musclesGrowth spurtPoor footwear
Decrease activityRICERPhysiotherapyStretching programCorrect footwearOrthotic control
Table 7.1 Overuse injuries (cont.)Injury Symptoms and
signsPossible causes Management
Shoulder pain Pain on certain movementsReduced movementLocal tenderness
Increased activity, e.g. swimmingPoor technique, e.g. swimming, pitching, serving
Decrease activityRICERPhysiotherapyStretching programExercisesModify activity
Elbow pain Pain in and around elbowPain increased by certain activities, e.g. shaking, lifting, gripping
JarringIncreased activity e.g. golf, tennisMuscle imbalancePoor techniqueChange of gripLack of control
Decrease activityRICERPhysiotherapyStretching programElbow braceModify technique
Source: Australian Coaching Council Inc.
Soft-tissue injury
Soft-tissue injuries are the most common sports injuries. They include:
• skin injuries—abrasions, lacerations and blisters
• muscle injuries—bruises (contusions), and tears or strains of muscle fibres
• tendon injuries—tears or strains of tendon fibres and inflammation (tendonitis)
• ligament injuries—sprains and tears of ligament fibres.
Hard-tissue injury
Those involving damage to the bones. Range from severe fractures and joint dislocations to bruising of
the bone
Secondary injury
Occurs as a result of a previous injury being poorly treated or not being fully healed.
Table 7.2 Injury incidence in AFL (2009 season)Body area Injury type New injuries per
club per season
Head/neck Concussion 0.5
Facial fractures 0.5
Neck sprains 0.1
Other head/neck injuries 0.1
Shoulder/arm/elbow Shoulder sprains and dislocations 1.3
Acromio-clavicular joint injuries 0.5
Fractured clavicles 0.2
Elbow sprains or joint injuries 0.2
Other shoulder/arm/elbow injuries 0.1
Forearm/wrist/hand Forearm/wrist/hand fractures 1.1
Other forearm/wrist/hand injuries 0.4
Trunk/back Rib and chest wall injuries 0.3
Lumbar and thoracic spine injuries 1.4
Other buttock/back/trunk injuries 0.5
Hip/groin/thigh Groin strains/osteitis pubis 3.2
Hamstring strains 7.1
Quadriceps strains 2.2
Thigh and hip haematomas 1.0
Other hip/groin/thigh injuries, including hip joint 1.0
Table 7.2 Injury incidence in AFL (cont.)Body area Injury type New injuries per
club per season
Knee Knee anterior cruciate ligament 0.6
Knee medial cruciate ligament 0.7
Knee posterior cruciate ligament 0.3
Knee cartilage 1.9
Patella injuries 0.2
Knee tendon injuries 0.5
Other knee injuries 1.0
Shin/ankle/foot Ankle joint sprains 2.6
Calf strains 1.3
Achilles tendon injuries 0.6
Leg and foot fractures 1.0
Leg and foot stress fractures 0.9
Other leg/foot/ankle injuries 1.5
Other Medical illnesses 2.9
Non-football injuries 0.1
New
injuries/club/season
37.6
Source: J Orchard and H Seward 2010, 2009 Injury Report, Australian Football League, Melbourne
Types of soft-tissue injuries
Tears, sprains and contusions Skin abrasions, lacerations and
blisters
Managing soft-tissue injuries
1. RICER: rest, ice, compression, elevation and referral
Personal reflection
Have you used RICER
to successfully manage a soft-tissue
injury?
2. Treating skin injuriesFor most skin injuries, such as abrasions, lacerations and blisters, seven management steps should be followed:
1.Reduce the dangers of infection (for example, by wearing gloves).
2.Control bleeding with rest, pressure and elevation.
3.Assess the severity of the wound.
4.Clean the wound using clean water, saline solution or a diluted antiseptic.
5.Apply an antiseptic to the wound (for example, Savlon or Betadine) after ensuring that the person is not allergic to the antiseptic to be used.
6.Dress the wound with a sterile pad and bandage.
7.If necessary, refer the person to medical attention.
Types of hard-tissue injuries
1. Fracture: a break in a bone
2. Dislocations: injuries to joints where one bone is displaced from another.
Fractures are classified into three types: simple (left), compound (centre) and complicated (right).
Managing hard-tissue injuries
1. Medical treatment: hard-tissue injuries can be accompanied by significant damage to muscle, blood vessels, surrounding organs and nerves.
2. Immobilisation: minimising the movement of the joints above and below the site of the injury
Table 7.3 Approaching injured athletes—a summary
Step Action
1. Danger • Control dangers, then assess injured athlete
2. Life threat • Use DRABCD
3. Initial injury assessment • Use STOP
4. Detailed injury
assessment
• Use TOTAPS
5. Initial management • Manage appropriately
• Refer to health professional
Source: J Orchard and H Seward 2010, 2009 Injury Report, Australian Football League, Melbourne
DRABCD
The six letters of the abbreviation stand for:
danger response airway breathing compressions defibrillation (if
available).
A critical step in assessing injury is
determining consciousness.
TOTAPS
Used to provide information about the extent of the injury.
TOTAPS stands for:
Touch the injured site to help determine the seriousness of the injury.
• talk
• observe
• touch
• active movement
• passive movement
• skills test
Progressive mobilisation
The freeing of hindered joints to allow improved motion. Can be achieved by the athlete carefully exercising the injured
joint or by another person manipulating the injured part. The range of movement is gradually increased over time until the
full range of movement is restored. Should begin soon after the injury because inactivity can
increase the formation of scar tissue.
Graduated exercise
1. Stretching improves rehabilitation by: reducing muscle tension increasing circulation increasing muscle and tendon length increasing the range of motion.
2. Muscle conditioning: Even if the injured area is immobilised (for example, in a cast or brace) a program should be designed to prevent muscle atrophy (wasting of muscle tissue).
§ Total body fitness: The choice of exercises to maintain total body fitness will depend on the type and severity of injury and the athlete’s sport.
Retraining for skills
Timing, speed and coordination are affected by rest. Returning to competition too early would risk re-injury because
their movement skills, game skills and confidence have not been re-established.
Retraining must be aimed at re-establishing all skills in an environment that is as close as possible to competition conditions.
Heat treatment
Heat is applied to increase circulation, either in the body generally or in a particular area. The body’s general physiological responses to heat are:
decreased pain increased ability to stretch relaxation increased blood flow reduced joint stiffness decreased muscle spasm increased inflammatory
response (more blood and fluid flows to the area)
increased tissue healing. Heat should not be applied
to acute injuries.
Cold treatment
Cold is commonly applied to an injury:
• during the initial phase of injury treatment
• after therapeutic exercise of injured sites.
Cold applied to an injury has the physiological effects of decreasing:
• swelling
• circulation to the injured site
• acute inflammation
• pain and discomfort
• muscle spasm
• tissue metabolism.
Assessing readiness to return to play
Must avoid pressure to participate and first assess:
1.Physical readiness: being pain free and having mobility restored to the injured area.
2.Psychological readiness: monitoring anxiety levels and assessing behaviour of athlete
Monitoring progress
Athletes’ physical and psychological condition should be monitored when they return to play. This might involve:
• observing the athlete’s performance
• discussing progress with the athlete
• conducting ongoing testing (comparing test results pre-injury with current results)
• using performance-evaluation techniques.
Warm-ups after injury
Athletes returning to play may require:
Longer, harder or more specific warm-up and stretching routine than other athletes.Extra care the injury site and surrounding tissues to ensure adequate flexibility, blood flow and readiness to perform.
Return-to-play policies
Return-to-play policies, procedures and guidelines vary depending on the sport.
Decisions about readiness to play may be determined by a particular sport’s governing organisation or be left to the discretion of individual sporting clubs.
1. Describe practices that should be avoided after a soft-tissue injury.
During the first two to three days after a soft-tissue injury, certain actions must be avoided. These include applying heat (for example, hot liniments, spas, saunas and hot baths), drinking alcohol, physical activity and massage. These actions all increase blood flow and therefore swelling.
2. Outline the procedure for the immediate management of skin injuries.
For most skin injuries, such as abrasions, lacerations and blisters, seven management steps should be followed:
1.Reduce the dangers of infection (for example, by wearing gloves).
2.Control bleeding with rest, pressure and elevation.
3.Assess the severity of the wound.
4.Clean the wound using clean water, saline solution or a diluted antiseptic.
5.Apply an antiseptic to the wound (for example, Savlon or Betadine) after ensuring that the person is not allergic to the antiseptic to be used.
6.Dress the wound with a sterile pad and bandage.
7.If necessary, refer the person to medical attention.
3. Explain the difference between the first aid assessment of sporting injuries and their long-term management.
First aid aims to:
• treat unconscious casualties
• provide information about the extent of an injury.
• provide initial pain relief and treatment
• helps to indicate whether the person should be permitted to continue a game
Finally, first aid determines if the person should be given professional medical help. It is a professional medical practitioner who determines what long-term management is required. The initial stages of assessment and first aid can play a large part in the long-term successful recovery of an injury.
4. Do some research to discover the most common injuries that occur in your chosen sport. Create an informative brochure for athletes and coaches.
In your brochure, you should summarise the:
a latest injury statistics
b classification of injuries sustained
c primary causes of injury
d preventative methods.
Your brochure should include diagrams and graphs to represent the statistics you find.
Answers will vary.
5. Compile a media file of articles about injuries sustained by elite athletes.
For each injury:
a classify it by cause and tissue type
b outline relevant management procedures.
Answers will vary.
6. Create a short film of the management procedure for soft-tissue injuries and hard-issue injuries.
Answers will vary.
7. Contrast the management methods used to treat soft-tissue injuries and hard-tissue injuries.
Soft-tissue injuries are managed using the RICER procedure, which recommends rest, ice, compression, elevation and referral (also see answer to question 2). Hard-tissue injuries are managed by immobilising the injured site.
8. Describe the inflammatory response and the role it plays in injury rehabilitation.
The acute inflammatory phase, during the first 24 to 72 hours after injury, is the initial stage of repair of body tissue. The body’s immediate response to injury is to increase the flow of blood and other fluids to the injured site. If blood vessels at the site are damaged, there will also be direct bleeding into the surrounding tissue. The accumulation of fluid in the area causes an increase in pressure, which produces pain.
9. Discuss each step of the TOTAPS procedure and the role it plays in assessing a sporting injury.
1. Talk—ask questions to gather information about the cause, nature and site of injury
2. Observe—examine the site of the injury to look for deformity, swelling and redness
3. Touch—feel the site of the injury (if there is no obvious deformity or the athlete is not especially distressed) and compare with the corresponding site on the other side of the body. Note any differences in bone shape and skin temperature.
4. Active movement—If there is no evidence of a fracture or dislocation, ask the athlete to try to move the injured part and observe the degree of pain.
5. Passive movement—First aider moves the athlete’s injured body part to determine how much pain-free movement is possible
6. Skills test—decide if the athlete can return to play by having them perform movements similar to those required in the activity to be resumed.
10. Justify the four rehabilitation procedures commonly used after sporting injuries.
Progressive mobilisation—necessary because the range of movement is gradually increased over time until the full range of movement is restored. Mobilisation of the injured part should begin soon after the injury because inactivity can increase the formation of scar tissue.
Graduated exercise—necessary to reduce muscle tension, increase circulation, increase muscle and tendon length and increase the range of motion.
Retraining for skills—even though they might have a full range of movement and flexibility, strength and fitness, if athletes were to return to competition at this stage they would risk re-injury because their movement skills, game skills and confidence have not been re-established. Timing, speed and coordination are affected by rest. To prepare for the physical and psychological demands of competition, the athlete must \ undertake active retraining.
Heat and cold are used to break down the body’s responses to an injury and increase the body’s healing responses.
11. Outline what may determine whether a player is psychologically ready to return to play.
There is no formal model in place to determine an athlete’s psychological readiness. However, coaches, teachers and medical professionals should discuss with athletes their readiness and observe their behaviour in order to make a decision.
12. Discuss the possible consequences for an athlete who returns to play prematurely.
If an athlete returns prematurely after injury it might cause the injury to become worse. This will extend the recovery time, and the athlete ends up spending more time out of action.
Image credits
Slide 1, Getty Images / Stuart Franklin Slide 6, Getty Images/AFP/Jimin Lai Slide 7, Getty Images/Michael Bradley Slide 8, Getty Images/3D4Medical.com Slide 17, Getty Images/Jasper Juinen Slide 21, Photolibrary/Apogee Apogee Slide 22, Getty Images/Steve Mason Slide 22, Getty Images/Bradley Kanaris Slide 25, Getty Images/Richard Heathcote Slide 27, Getty Images/Matt King Slide 28, Photolibrary/Polka Dot Images Slide 31, Getty Images/Stockbyte Slide 33, Photolibrary/SPL/Paul Rapson Slide 34, Getty Images/Mark Dadswell Slide 37, Getty Images/Michael Bradley