Pediatric Sports Injuries

Question 1

most common sports that result in injuries in boys

Answer 1

soccer, baseball, football, ice hockey, rugby, XC
* Males have greater risk of injury with age

Question 2

sports with most common injury for girls

Answer 2

gymnastics
soccer
basketball
volleyball
XC

Question 3

injury patterns for females

Answer 3

More LE injuries, spine injuries, patellofemoral knee pain, overuse injuries

Question 4

injury patterns for males

Answer 4

more UE injuries, OCD lesions, fractures

Question 5

ACL injuries

Answer 5

• equal between females and males
• M>F skeletall immature
• F>M skeletally mature

Question 6

common types of injuries

Answer 6

• contusions
• sprains
• fractures
• strains
• knee and ankle most common location of injury in children

Question 7

risk factors:

Answer 7

• Intrinsic Risk Factors
• Extrinsic Risk Factors
• Developmental Factors
• Growth Related Factors
• Muscle-Tendon Imbalances
• Anatomic Malalignment
• Associated Disease States
• Improper Foot Wear
• Training Errors

Question 8

Intrinsic risk factors

Answer 8

• Previous injury
• Malalignment: LLD, foot hyperpronation
• Female gender: menstrual cycle irregularity
• Physiological issues
• Psychological issues
• Muscle imbalances/ inflexibility
• Instability/Laxity
• Level of Play/Experience
• Age
• Height
• Tanner stage

Question 9

Extrinsic Risk Factors

Answer 9

• Training and recovery
• Equipment
• Poor technique
• Environment
• Sport-acquired deficiencies
• Conditioning

Question 10

lack of psychological and developmental maturity….

Answer 10

predisposes on to injury, especially with specialization
- risk of overtraining and burnout

Question 11

positive changes in mental and emotional well-being with physical activity

Answer 11

• Decreased anxiety, depression
• Increased concentration, attention, memory, academic
  achievement
• Strong “athletic identity” have increased self-esteem

Question 12

Physiological Risk Factors

Answer 12

• Smaller hearts and lower blood volume → lower stroke
  volume and higher heart rate
• Lower glycolytic capacity → decreased anaerobic
  performance
• Slowly maturing nervous system and incomplete myelination of nerve fibers –> Balance, agility, coordination, strength, neuromuscular control

Question 13

Growth related risk factors

Answer 13

• Cartilage at a growth plate more susceptible to injury
• Growing bones cannot handle as much stress as mature bones
• Increased risk of injury during growth spurt

Question 14

Why is there an increased risk of injury during growth spurt?

Answer 14

• Muscle imbalances d/t asymmetrical growth
• Shortened muscles d/t bones grow faster than muscle
• Decreased proprioception and balance

Question 15

Articular Cartilage and Repetitive Loading

Answer 15

• Growing articular cartilage has lower resistance to repetitive loading and can lead to microtrauma to cartilage or growth plate
• Tissue damage can lead to asymmetrical growth and/or early onset osteoarthritis
• Repetitive running or jumping can lead to knee OA and/or disruption to growth plate, leading to altered growth

Question 16

Osteochondritis Dissecans Lesions

Answer 16

• Caused by repetitive shearing stresses, often at elbow, knee, ankle
• Segment of subchondral bone becomes avascular and causes small segment
  to separate with its articular cartilage and from the surrounding bone to become a loose body

Question 17

Examples of OCD Lesions

Answer 17

• OCD of the talus (runners)
• OCD of the capitellum (“Little League Elbow”)
• Shear stress has also been implicated in epiphyseal
  displacement

Question 18

Apophysis

Answer 18

sit of attachment of the tendon to the bone and represents and ossification center of the bone
- eventually will fuse with maturation but susceptible to overuse injuries while growing

Question 19

apophysitis

Answer 19

inflammation secondary to microavulsions at the bone-cartilage junction caused by repetitive motion and overuse at times of rapid growth

Question 20

Where are some places that are especially susceptible to overuse stresses

Answer 20

• insertion point for musculotendinous unit –> microavulsion fracture
• Osgood-Schlatter disease at knee
• Sever’s disease at heel
• Little League Elbow at med epicondyle
• Pelvic apophysitis and apophyseal avulsion injury at pelvis

Question 21

What is Osgood-Schlatter Disease

Answer 21

• Traction apophysitis of tibial tuberosity
• Occurs during growth spurt: girls 12-14 yo, boys 14-16 yo

Question 22

Osgood-Schlatter Disease Symptoms

Answer 22

• TTP and swelling over tibial tuberosity, onset of pain with
  resisted knee extension, tight HS/quads
• X-ray r/o avulsion fx

Question 23

Osgood-Schlatter Disease Treatment

Answer 23

rest, pain management, stretching, modalities, knee pad, infrapatellar strap 6-8 wks

Question 24

When do symptoms improve in Osgood-Schlatter Disease

Answer 24

• 4-6 weeks
• resolution about 12-18 months ween growth plate closes

Question 25

Osgood-Schlatter Disease MOI

Answer 25

repetitive running, jumping, cutting, squatting (basketball,
football, soccer, volleyball, track, cross country)

Question 26

what is Sever’s Disease

Answer 26

• Traction apophysitis at insertion of Achilles tendon on calcaneus
• Boys (10-12 yo) > Girls (8-10 yo)
• Tight Achilles tendons, tendency to in-toe, forefoot varus

Question 27

Symptoms of Sever’s Disease

Answer 27

TTP Achilles tendon, mild swelling, limited and painful
DF, (+) squeeze test

Question 28

Sever’s Disease Treatment

Answer 28

rest, pain management, cushioned heel lifts, stretching,
strengthening, gradual RTS over 6-8 wks

Question 29

When does Sever’s Disease Resolve

Answer 29

with closure of growth plate

Question 30

Sever’s Disease MOI

Answer 30

repetitive running, jumping

Question 31

What is Little League Elbow?

Answer 31

• Medial condyle apophysitis
• Overuse injury to medial elbow as a result of repetitive stress, causing separation of physis at medial epicondyle

Question 32

MOI of Little League Elbow

Answer 32

• Baseball pitching/throwing
• Valgus load to medial elbow during acceleration causes traction force to medial elbow; forceful wrist flexion and forearm pronation increase stress to m. attachment distal to physis during throwing; improper mechanics

Question 33

Treatment of Little League Elbow

Answer 33

• rest, pain management, strengthening, stretching, teach

Question 34

How to prevent little league elbow

Answer 34

pitch count

Question 35

what causes pelvic apophysitis

Answer 35

• repetitive overuse of hip flexors (sartorius - ASIS, rectus femoris - AIIS)
• Adolescents with tight hip and thigh muscles

Question 36

Symptoms of pelvic apophysitis

Answer 36

• gradual, dull activity-related pain at front/side of hip;
  TTP ASIS or AIIS, pain with resisted HF, pain with passive stretching
  HF
• X-rays r/o apophyseal avulsion fx, SCFE, or LCPD

Question 37

Treatment of pelvic apophysitis

Answer 37

rest, pain management, gradual functional rehab, stretching, strengthening, RTS activities once strength and flexibility WFL

Question 38

Epiphysis

Answer 38

• area of growth in long bone

Question 39

what occurs to bone with growth

Answer 39

bone becomes more stiff and less cartilaginous, making it less resistant to impact

Question 40

Ossification center

Answer 40

• points where ossification of the cartilage begins during growth, and there are charts that can be referenced regarding the expected age-range time frames for fusion of growth ossification centers

Question 41

sudden overload of bone can cause…

Answer 41

bowing or buckling

Question 42

epiphysis more susceptible, may shear off causing an avulsion fracture

Answer 42

• Avulsion fx of ACL
• Avulsion fx of ankle ligament * Growth plate fxs

Question 43

longitudinal bone growth

Answer 43

• bone grows in spurts with slower secondary elongation of soft tissue

Question 44

periods of decreased musculotendinous flexibility during growth spurts –>

Answer 44

higher risk for overuse injures
* Girls: 11-13.5 yo, average growth 3.5”/yr at peak
* Boys: 12+ yo, average growth 4”/yr at peak

Question 45

what is the focus in PT during growth spurt?

Answer 45

prevention of overuse injuries

Question 46

What is negatively impacted during a growth spurt?

Answer 46

strength and flexibility
- flexibility decreases leaving tendons taut and at risk for avulsion at the bone

Question 47

what does longitudinal bone growth put a strain on?

Answer 47

muscle
increases risk of micro tears and repetitive strains

Question 48

What can sport specific bulk training cause?

Answer 48

muscular imbalances
increases risk for injury

Question 49

Anatomic malalignment

Answer 49

• Hyperlordosis of the spine
• Femoral anteversion
• Hyperextension of the knee
• Pes Planus
• Hypermobility
• LLD

Question 50

improper footwear can lead to…

Answer 50

LE and foot injuries

Question 51

shoes should…

Answer 51

compensate for changes in alignment

Question 52

ensure adequate footwear fit

Answer 52

• Toe box: ½ inch between longest toe and tip of heel
• Firm heel counter and adequately grips heel, rearfoot control
• Adequate cushioning, sole flexibility
• Shock absorption
• Feet swell so best to try on shoes toward end of day

Question 53

Playing surface

Answer 53

• Improper playing surface can lead to knee pain, shin splints, stress fractures
• Cleat wear on grass associated with 2.4% increased risk for injuries among female youth soccer players

Question 54

training errors

Answer 54

• Sudden increase in total volume or intensity of activity
• Increased rate of progression * Attempt to participate at level above capacity of individual
  athlete
• Several seasons of same sport with few rest periods
• Untrained coaches

Question 55

Sports injury

Answer 55

• can be due to a single macro trauma or repetitive micro traumas
• > 50% of sports injuries associated with overuse injury –> underreported since many athletes do not seek medical treatment

Question 56

Common sports injuries

Answer 56

• fractures
• joint injuries
• musculotendinous unit injuries

Question 57

what causes stress fractures

Answer 57

• excessive repetitive loading of WB bones or poor training
• cancellous bone fracture in kids vs cortical bone fracture in adults

Question 58

what is optimal for diagnosing stress fractures

Answer 58

• bone scan
• x ray may not show for 6-8 weeks

Question 59

areas that are high risk for stress fractures

Answer 59

pars interarticularis, medial malleolus, femur, lower
1/3 of anterior tibia, 5th MT head

Question 60

risk factors for stress fractures

Answer 60

Sudden increase in volume or intensity of PA, h/o
previous fx, hard running surface, poor footwear, overtraining, female especially if h/o eating disorder or osteoporosis

Question 61

shaft fractures

Answer 61

• more common in older children near adulthood
• also seen with abuse, falls in toddlers, high trauma

Question 62

greenstick fractures

Answer 62

• Specific to pediatrics
• Force applied to one side of a long bone breaks the cortex on the side of impact and
  bends the other
• Causes angular deformity

Question 63

Epiphyseal Fractures

Answer 63

• goes through growth plate
• 20% of pediatric fractures
• cartilaginous growth plate less resistant to shear or tensile deforming force than ligament or bony cortex –> growth plate most susceptible

Question 64

What can epiphyseal fractures cause

Answer 64

angular deformity, LLD, joint incongruity, premature closure

Question 65

who is the common population for epiphyseal fractures

Answer 65

• boys in early adolescence
• macrotrauma
• repetitive microtrauma

Question 66

Salter-Harris Classification

Answer 66

• S: straight across physis
• A: above physis
• L: lower than physis
• TE: through everything
• R: Rammed –> crushed

Question 67

What is stronger than growth plate during growth?

Answer 67

ligaments

Question 68

Most common ligamentous strains

Answer 68

• ankle
• knee

Question 69

who has the greatest incidence of ACL sprains

Answer 69

females about 16 yo in soccer

Question 70

factors contributing to ACL sprain

Answer 70

genu recurvatum, navicular
drop, excessive pronation, hormonal status, level of neuromuscular control,
biomechanical differences including landing mechanics and muscle strength

Question 71

Internal Derangement

Answer 71

damage to joint due to trauma

Question 72

avulsion fractures

Answer 72

muscle or tendon detaches from bone; common in ankle, hip, elbow

Question 73

tendonitis

Answer 73

less frequently seen in kids (apophysis more
susceptible); Achilles tendonitis in dancers

Question 74

Enthesis

Answer 74

• pain and inflammation of connective tissue between ligament, tendon, joint capsule and bone; associated with rheumatologist condition and in overuse

Question 75

muscle strains

Answer 75

injury to muscle or tendon similar to adult, due to excessive stretching or overuse

Question 76

Exertion Compartment Syndromes

Answer 76

due to increases in muscle volume during exercise, symptoms include pain and swelling

Question 77

muscle hernia

Answer 77

soft tissue injury in the groin area where abdominals and adductors attach to pubic bone or in the abdomen; caused by tight fascial or musculotendinous structures or weakness in the abdominal muscles

Question 78

sports injury prevention

Answer 78

• Pre-participation Screening
• Trained Coaches
• Supervision
• Training Periodization
• Proper Equipment
• Environmental Control
• Appropriate Nutrition and Hydration
• Multisport Participation

Question 79

Pre-participation screening

Answer 79

• AAP recommends biannual complete evaluation followed by a limited annual re-evaluation
• performed at least 6 weeks prior to start of sport to allow treatment of any ID’d problems

Question 80

What does pre-participation screening include

Answer 80

• medical history and exam, musculoskeletal exam, body composition assessment, physical maturity evaluation, sport specific functional tests, and assessment of readiness including physical, psychologic and mental health
• may include dynamic functional performance assessments tailored to specific demands of sport

Question 81

Pre-participation screening goals

Answer 81

• determine general health
• screen for conditions that might be life-threatening or disabling
• detect conditions that may limit participation or predispose to injury or illness
• assess maturity and fitness level
• educate athlete/family
• identify appropriate sports
• determine clearance for sport
• ID strengths and weaknesses to determine individualized training plan

Question 82

clearance for sport

Answer 82

• unrestricted for any sport
• no collision or contact
• limited contact or impact
• no contact only

Question 83

trained coaches

Answer 83

• need for coaching has increased; shortage of qualified applicants
• awareness of emotional and psychological development
• decreased risk of overuse injury with strengthening, NM control, flexibility, balance, and task specific training
• various education programs offered online

Question 84

supervision

Answer 84

• adequate supervision from coaches, officials, medical professionals
• injuries incurred with weight lifting are typically due to accidents in weight room

Question 85

proper training

Answer 85

• fitness should be year-round endeavor
• incorporate fun, cooperation, team play, learning
• age-appropriate

Question 86

ideal training incorporates…

Answer 86

• strengthening
• flexibility
• NM control
• balance
• CV exercise
• task specific training

Question 87

Proper protective equipment

Answer 87

• Protective: helmets, goggles/eyewear, padding, mouth guards, proper footwear, auricular protection * High quality equipment that is properly fitted, appropriate for sport
• PT and/or ATC may fit or modify equipment
• PTs may fabricate specialized equipment (orthotics, splints, braces)

Question 88

hydration

Answer 88

• Kids require more liquid per body weight
• AAP: water breaks every 5-10 min if >82º
• ACE: 3-8 oz water every 20 min of play in 9-12 yo and 11-16 oz if >12 yo
• ACSM: 13.5-16.9 oz prior to running, water break every
  35-45 min in football
• Thirst is not a valid indicator
• Every lb (16 oz) lost should be replaced by 2C (16 oz)
• Monitor content of sports drinks

Question 89

environmental control

Answer 89

• Well-lit and safe environment, free from obstacles, smooth/even,
  shock-absorbing surfaces, equipment modifications for injury prevention
• Age-appropriate, scaled appropriately for size
• Accommodate for temperature and humidity, modify exercise if >75º

Question 90

Children have a harder time regulating temperature due to greater surface area: body mass

Answer 90

• acclimatize slower
• greater heat gain on hot days
• greater heat loss on cold days
• produce less sweat and less evaporative heat loss
• at greater risk for heat exhaustion

Question 91

multisport participation

Answer 91

• Multisport participation can be protective against overtraining/burnout and sports injuries
• If adequate rest between daily activities and/or seasons, athletes are likely to participate in sports longer
• May be at risk if fail to get adequate rest between daily activities and/or seasons as in
  with poor periodization
• If athlete plays ≥2 sports that emphasize the same body part, at risk for overuse injury
• Important to monitor for signs of overtraining/burnout

Question 92

Sport Specialization

Answer 92

• Reality: 1% of young athletes age 6-17 will achieve elite status in basketball,
  soccer, baseball, softball, or football.
• Greater risk of overuse injury/fracture during peak height velocity

Question 93

risks of single sport specialization

Answer 93

• Adverse psychological stress * Premature withdrawal and burnout
• Higher rates of injury >13 yo and athletes competing at higher levels

Question 94

pediatric rehab considerations

Answer 94

• Ultimate LTG to RTS in safe manner with minimal risk of further injury
• Criterion-based vs. time-based
• Age-appropriate modifications

Question 95

PT interventions for sports injuries

Answer 95

• Strengthening
• Aerobic Conditioning
• Modalities
• Splints/orthotics
• Pain management
• Specific Examination Measures

Question 96

Who is safe to do resistance training

Answer 96

• children > 8yo when supervised

Question 97

Strengthening considerations

Answer 97

• development
• emotional maturity
• supervision at all times
• technique
• home program
• concentrate on flexibility during growth spurt
• avoid adult weight machines

Question 98

Why do kids need supervision at all times when strength training

Answer 98

• to decrease risk of accidental injuries
• to get regular feedback on technique

Question 99

strength training technique

Answer 99

• Goal to develop good lifting techniques at early age
• Dynamic warm up
• Appropriate volume/intensity
• Avoid 1RM
• Low weight, high reps/sets
• Non-ballistic movements
• Move through full ROM
• Limit eccentric work

Question 100

strength gains in post pubescent kids

Answer 100

similar gains to adult

Question 101

strength gains if prepubescent

Answer 101

lack androgens for hypertrophy therefor gains are neuromuscular based

Question 102

aerobic training

Answer 102

3-4x/week, 40-60 min, 85-90% HRmax

Question 103

anaerobic training

Answer 103

2x/week
90% HRmax
less than 30 seconds

Question 104

considerations for anaerobic training

Answer 104

• temperature
• impact of body mass ratio
• Kidd less able to use muscle glycogen, less able to produce lactic acid, produce sweat, and acclimatize slower

Question 105

Modalities

Answer 105

• US/Interferential: contraindicated over growing
  epiphysis
• Strong precautions with diathermy and TENS
• Ice: 15-minute intervals, do not apply to multiple
  areas to avoid widespread vasoconstriction
• Hot pack: with supervision and never lying on it

Question 106

Splints/ Orthotics

Answer 106

• support and protect joint
• ensure proper brace application/wear

Question 107

pain medication

Answer 107

• monitor use
• watch for toxicity and abuse

Question 108

return to play

Answer 108

• Adequate tissue healing
• Resolution of impairments
• Adequate muscle strength (85-90% sound side)
• Functional/sports-specific
  performance within 85-90% sound side

Question 109

Recommendations from AAP

Answer 109

• Age-appropriate, fun games/training
• 1-2 days/week off from organized activity for rest and participation in other activities
• 2-3 month per year break from specific sport to focus on other activities, cross-train
• Modify endurance events (triathlons/races)
• 10% rule for training progression – no more than a 10% progression each
  week
• Educate athletes/families on recognizing when appropriate to slow down or change training methods

Question 110

Athletes with disabilities

Answer 110

• lower overall fitness
• same activity needs
• pre-participation screenings the same except more thorough exam for potential medical risks
• identify if prone to additional injury
• classify athlete based on type and severity of disability based on international and national classification systems

Question 111

athletes with disability: improved overall health

Answer 111

• decreased physician visits
• hospitalizations
• decubitus ulcers
• medical complications

Question 112

athletes with disability: physiological benefits

Answer 112

• decreased body fat
• increased muscle strength and endurance

Question 113

athletes with disability: psychological benefit

Answer 113

• increased self-concept, self acceptance, perceived physical appearance/self esteem
• lower levels of depression

Question 114

what is the injury rate for athletes with disabilities

Answer 114

same rates as those without disability