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Running Injuries and Shoes

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Running Injuries and Shoes Injury Prevention and Performance Enhancement Forces during Walking vs. Running walking: long duration double active peaks +/-20% ... – PowerPoint PPT presentation

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Title: Running Injuries and Shoes


1
Running Injuries and Shoes
  • Injury Prevention and Performance Enhancement

2
Forces during Walking vs. Running
  • walking
  • long duration
  • double active peaks
  • /-20 body weight
  • running/sprinting/jumping
  • brief durations
  • single active peak
  • 3 times BW
  • heel-toe landing
  • jump landings
  • brief duration
  • up to 10 times BW
  • forefoot landing

3
Running Forces
  • Visual3D animation of walking, jogging and
    running.
  • 4 force platforms
  • 10 Motion Analysis infrared cameras

4
Running Injuries
  • plantar fasciitis
  • anatomical, excessive heel impacts, poor running
    mechanics
  • heel spur, hammer toes, bunions
  • poor shoe fit
  • ankle and foot sprains
  • mechanically caused by landing off balance or on
    an obstacle
  • tibial stress syndrome/fracture
  • overuse injury, hard surfaces, old/poor footwear,
    poor prep.
  • knee/hip/back pain
  • anatomical (leg length, abnormal Q-angle,
    supinated foot)
  • shin splints
  • mechanically caused by rapid changes in training
    surfaces and overuse
  • heel contusion (bruise) poor heel protection,
    heavy landings

5
Anatomical Indicators of Running Knee Pain
  • femoral neck anteversion
  • excessive Q-angle
  • knee (genu) varum (bowlegged)
  • squinting patellae
  • functional equinus
  • pronated feet (valgus) in weight-bearing
  • Ref.
  • S L James, BT Bates, LR Osternig, Injuries to
    runners, Amer J Sport Med, 6(2)40-50,1978.

6
Q-angle or Quadriceps-angle
  • quadriceps-angle is formed in the frontal plane
    by two line segments
  • from tibial tubercle to the middle of the patella
  • from the middle of the patella to the anterior
    superior iliac sine (ASIS)
  • in adults is typically 15 degrees
  • Increases or decreases in the Q-angles are
    associated with increased peak patellofemoral
    contact pressures (Huberti Hayes, 1984).
  • Insall, Falvo, Wise (1976) implicated increased
    Q-angle in a prospective study of patellofemoral
    pain.

7
Pronation versus Supination
  • of hand
  • one-dimensional rotation
  • turning palm upwards is supination, downwards is
    pronation
  • of foot
  • three-dimensional motion
  • supination inversion, plantiflexion and
    internal rotation
  • pronation eversion, dorsiflexion and external
    rotation
  • supination is turning foot so that plantar
    surface (bottom of foot) is directed medially
    (towards midline)
  • pronation is turning foot so that plantar surface
    (bottom of foot) is directed laterally (away from
    midline), this is most common motion when a foot
    lands during running

8
Knee (Genu) Varus or Varum
  • inward angulation of the distal segment
  • bowlegged
  • common in horse riders and infants

9
Knee (Genu) Valgus
  • outward angulation of the distal segment
  • distal segment is rotated Laterally
  • distal means farther away from the bodys centre
  • knock-kneed
  • common in women

10
Supinated Foot Pronates during Landings
  • foot is supinated at landing pronates during
    loading
  • orthotics help to reduce rates of pronation
    during landings (Bates et al. 1979 Undermanned
    et al., 2003 Stackhouse et al., 2004) but it is
    unclear how they affect the kinetics (MacLean et
    al., 2006)

11
Foot Orthotic Appliances
  • orthotic with medial forefoot post
  • for forefoot supination (varum)
  • orthotic with lateral forefoot post
  • for forefoot pronation (valgus or
  • plantiflexed first ray)
  • orthotic with medial heel post for
  • subtalar varum

12
Heel Protection
  • heel cup
  • rigid material that doesnt absorb impact but
    does spread impact over larger area
  • heel cups with gel cells
  • attenuates peak forces by spreading impact over
    time
  • doughnut (cushion with hole under calcaneus)
  • same as gel cells but also transfers impact
    forces to wider area

13
Impact Protection
  • object is to reduce peak forces especially at
    weak areas
  • reduction can be done by spreading impact forces
    over a wider area
  • distributing the forces to the strongest
    structures or away from damaged structures
  • delaying the forces by gradually absorbing the
    impact (you cannot actually decrease the total
    impact (impulse)
  • run on softer surfaces
  • decease amount of exposure
  • reduce duty cycle (avoid high-impact aerobic
    dance, i.e., use step aerobics)
  • use appropriate footwear

14
Shoe Anatomy
  • sole bottom of shoe
  • insole interior bottom of a shoe
  • some models have removable insoles
  • outsole material in direct contact with ground
    (tread)
  • midsole material between insole and outsole
    (made of EVA or PU)
  • upper top of shoe that holds shoe to foot
  • low-cut, mid-cut and high-cut uppers
  • toe box area that holds toes and heads of
    metatarsals
  • vamp material over the instep
  • heel counter specialized area at heel that is
    relatively rigid in running shoes
  • last form for shaping shoe (straight,
    semicurved, curved) and footprint

15
Why Does Running Cause Injuries?
  • ground reaction forces are high (3x body weight)
  • impact is brief therefore little time for muscles
    to dissipate forces
  • some peoples anatomy may predispose injury (leg
    length discrepancy, excessively
    pronated/supinated feet or varum/valgus knees)
  • running surfaces are rigid (roads, sidewalks,
    frozen earth)
  • people tend to over-train (amount per day, no
    recovery days)
  • warm-up and stretching are often neglected

16
Purposes of Shoes
  • protection from
  • sprains (high cut shoes may help but reduce
    flexibility)
  • cuts and abrasions (strong uppers may increase
    weight and decrease mobility)
  • punctures from nails, rocks, slivers etc.
    especially for road running (thick soles help but
    reduce efficiency)
  • traction or prevent slippage
  • tread helps especially on wet surfaces
  • spikes and studs (check rule books)
  • cushioning
  • in midsoles (reduces efficiency)
  • ventilation
  • air circulation, water drainage or waterproof?

17
Cut of Uppers
  • low cut
  • greatest mobility
  • mid cut
  • high cut
  • may help to control ankle sprains

18
Running Shoe Types
  • Cushion
  • for high-arch feet, underpronator
  • extra cushioning in the midsoles to help absorb
    shocks their soles have a curved or semicurved
    shape (last) that promotes a normal running
    motion
  • Motion control
  • for flat feet or feet that pronate after landing
  • straight last and a more rigid midsole than other
    running shoes, these help keep your feet properly
    aligned.
  • Stability
  • for normal or neutral feet
  • semicurved last, but the less rigid midsoles
    allow feet to strike the ground naturally

19
Cushioning
  • measured by durometer (hardness)
  • mainly in midsole
  • cushioning is helpful for hard surfaces
  • especially as muscles start to fatigue
  • greater cushioning means less efficiency
  • may cause ankle instability and sprains
  • gel or air cushions cause landing instability
  • cushioning columns are better
  • breaks down over time
  • impact testing for endurance

20
Biomechanical Efficiency?
  • all shoes absorb and dissipate energy
  • cushioned running shoes absorb the most energy
  • the greater the cushioning the more lost energy
  • sprinters shoes have the least cushioning and
    are therefore the more efficient
  • bare feet are most efficient but traction may be
    compromised and they offer little protection from
    stones, heat or sharp objects

21
Athletic Shoe Types
  • basketball/volleyball
  • sturdiest with thick midsole cushioning
  • for wooden floors and high impacts
  • cross-trainers
  • most versatile athletic shoes available
  • less cushioning
  • spiked for track field
  • greatest traction on rubberized tracks
  • lightest and fastest
  • studded for soccer or rugby etc.
  • greatest traction of grass or artificial turf

22
Orthoses and Orthotics
  • orthosis (singular of orthoses)
  • device added to support an anatomical structure
  • i.e., brace or wedge
  • e.g., custom foot orthotic (CFO) appliances
    (orthotics), ankle-foot orthoses (AFO) and knee
    braces

23
Prostheses
  • prosthesis (singular of prostheses)
  • device that replaces an anatomical structure
  • i.e., an artificial limb
  • e.g., solid-ankle, cushioned-foot (SACH) foot,
    FlexFoot, C-knee, Mauch leg

24
Sprinting Prostheses
  • LAUSANNE, Switzerland -- Double-amputee sprinter
    Oscar Pistorius won his appeal and can compete
    for a place in the Beijing Olympics.
  • IAAF Rule 144.2 For the purpose of this Rule the
    following shall be considered assistance, and are
    therefore not allowed
  • e) use of any technical device that incorporates
    springs, wheels or any other element that
    provides the user with an advantage over another
    athlete not using such a device.

It's a great day for sport. I think this day is
going to go down in history for the equality of
disabled people. -- Oscar Pistorius
25
Sprinting Prostheses
  • Disadvantages
  • very stiff in torsional rotation therefore
    difficult in bends
  • passive spring therefore cannot add energy
  • slower to accelerate
  • Advantages
  • lighter therefore lower locomotor energy cost
  • may increase stride length on straight-aways

26
References
  • Bates B et al. Amer J Sports Med 7338-342,1979.
  • Huberti HH Hayes WC. J Bone Jnt Surg
    66A715-724,1984.
  • Insall J, Falvo KA Wise DW. J Bone Jnt Surg
    58A1-8,1976.
  • MacLean C, McClay Davis, I Hamill J. Clin
    Biomech 21623- 630,2006.
  • Mündermann A et al. Clin Biomech 18254-262,2003.
  • Stackhouse CL, McClay Davis, I Hamill J. Clin
    Biomech 1964-70,2004.
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