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transcript
ANKLE&FOOT
Dr. TAREK NASRALA
AL AZHAR UNIVERSTY
Your Guide to Treating Foot Pain
Walking is the 2nd most common conscious function of our body next to breathing.
A person takes between
5,000 to 10,000 steps a day, depending on
their activity level.
When your feet hurt you are reminded with every step taken.
Eliminating foot pain is a challenge.
It’s pretty easy to rest your back, shoulder, arm, wrist or hand.
But to tell someone to stay off their foot, that’s not so easy.
Ankle and Foot Joints
Complex– 26 bones– ~ 30 joints– > 20 muscles
Simplification– Tarsals– Extrinsic muscles only– 9 joints
Ankle and Foot Joint Bones
Tibia Fibula Talus Calcaneus Tarsals (5) Metatarsals (5) Proximal phalanges (5) Middle phalanges (4) Distal phalanges (5)
Tibia
Fibula
Talus
Calcaneus
Tarsals
Metatarsals
Interosseus membrane
Proximal phalanges
Middle phalanges
Distal phalanges
Ankle and Foot Joints
Talocrural joint (ankle)– Uniaxial hinge
Subtalar joint– Gliding/nonaxial
Transverse tarsal joints– Gliding/nonaxial
Intertarsal joints– Gliding/nonaxial
Tarsometatarsal joints– Gliding/nonaxial
Metatarsophalangeal joints– Biaxial ball and socket
Proximal interphalangeal joints– Little toes – Uniaxial hinge
Distal interphalangeal joints– Little toes – Uniaxial hinge
Interphalangeal joint– Big toe – Uniaxial hinge
Talocrural joint
Subtalar joint
Plantar/dorsiflexion
Sagittal, ML axis
Eversion/inversion
Frontal plane AP axis
Transverse tarsal jointsIntertarsal joints
Tarsometatarsal joints
Metatarsophalangeal jointsProximal interphalangeal jointsDistal interphalangeal joints
Interphalangeal joint
Behind the trochlea is a posterior process with a medial and a lateral tubercle separated by a groove for the tendon of flexor hallucis longus.
Exceptionally, the lateral of these tubercles forms an independent bone called os trigonum or "accessory talus".
Plantar Fascia
Movements
When the body is in the erect position, the foot is at right angles to the leg
dorsiflexion consists in the approximation of the dorsum of the foot to the front of the leg, while in extension the heel is drawn up and the toes pointed downward
The range of movement varies in different individuals from about 50° to 90°
Ankle and Foot Joint Movements
Flexion/Extension– Talocrural joint (plantar/dorsiflexion)– Proximal interphalangeal joints– Distal interphalangeal joints– Interphalangeal joint– Metatarsophalangeal joints (Biaxial B+S)
Inversion/Eversion– Subtalar joint– Transverse tarsal joints
Abduction/Adduction/Circumduction– Metatarsophalangeal joints (Biaxial B+S)
Arches of the Foot
Basic Anatomy of the Foot and Ankle
Three Arches enable us to absorb forces– Transverse Arch
– Medial Longitudinal
Arch
– Lateral Longitudinal
Arch
The Three Arches Transverse Arch
– Goes across the width of the foot
– Comprised of the cuneiforms (all three), the cuboid, and the base of the fifth metatarsal.
The Three Arches Medial longitudinal arch The highest and most important arch in the
foot.
– Goes the length of the foot on the medial side.
– Comprised of the calcaneus, talus, navicular, cuneiforms and the first three metatarsals.
The Three Arches Lateral longitudinal arch The arch next to the medial one that is
flatter and lower.
– Goes the length of the foot on the lateral side.
– Comprised of the calcaneus, talus, cuboid, and the forth and fifth metatarsals.
Ligaments Medial Side
– Deltoid Ligament- support ligament
on medial side of
foot.– Spring Ligament-
AKA the Plantar Calcaneonavicular ligament.
Ligaments Lateral Side
– ATF-Anterior Talofibular Ligament
– CF-Calcaneofibular Ligament
– PTF-Posterior Talofibular Ligament
Assessing the Lower Leg and Ankle History
– Past history– Mechanism of injury– When does it hurt?– Type of, quality of, duration of pain?– Sounds or feelings?– How long were you disabled?– Swelling?– Previous treatments?
Observations– Postural deviations?– Genu valgum or varum?– Is there difficulty with walking?– Deformities, asymmetries or swelling?– Color and texture of skin, heat, redness?– Patient in obvious pain?– Is range of motion normal?
Palpation– Begin with bony landmarks and progress to
soft tissue– Attempt to locate areas of deformity, swelling
and localized tenderness
EXAMInspection.
Palpation.
Movements.
Special tests.
INSPECTION
1- ERECT POSITION.
2-SUPINE POSITION.
INSPECTION OF THE PATIENT’S GAIT:
Evaluation of the walking cycle
GAIT ANALYSIS
Gait cycleGait cycle
Heel strike
Foot flat
Toe off
Biomechanics of Normal Gait
• 2 phases: stance or support phase & swing or recovery phase
– Stance: initial contact at heel strike and ends at toe off
– Swing: time immediately after toe off, leg moved from behind body to a position in front of body in preparation of heel strike
Foot at stance phase
– Shock absorber to impact forces at heel strike and adapt to uneven surface
– At push off functions as rigid lever to transmit explosive force
– Lateral aspect of calcaneus with subtalar joint in supination to forefoot contact on medial surface of foot and subtalar joint pronation• Pronation distributes forces to many
structures
• Foot begins to re-supinate and returns subtalar joint to neutrally 70 to 90 % of support phase
• Foot becomes rigid and stable to allow greater amount of force at push off
Trendelenburg gait
Tip-toe walking
Foot drop walking
Spastic gait
Intoeing/Out toeng gait
Antalgic gait
SPECIAL PATHOLOGIES:
INTOING GAIT:
-Internal femoral torsion: exaggerated anteversion.
-Internal tibial torsion.
-Forefoot adduction.
Inspection in standing position
: POSTERIOR HEEL STANDING
FOOT SHAPE
ALL THE TOES SHOULD BE IN GROUND CONTACT IN W.B.(stability of the foot on the ground)
INSPECTION: of the L.L
Any asymmetry of length, rotational problem, or mal alignment of the lower limbs.
INSPECTION:
- Deformity, swelling, skin changes, muscle wasting, asymmetry of length, abnormal position….
INSPECT ALL ARROUND
INSPECTION:
PLANTAR SKIN
callosity
Palpation:
Bone and joints
Soft tissues
Anatomical landmarks:
-Medial malleolus, lateral malleolus, Achilles tendon, calcaneal tuberosity, peroneal tendon, tibialis posterior tendon, tibialis anterior tendon, plantar fascia, base of 5th metatarsal, 1st MP joint, metatarsal heads……..etc
Ankle Landmarks
PALPATION:
Tenderness, swelling, deformity….
Knowing the anatomy:
MOVEMENTS:
Ankle: -dorsiflection -plantarflection.
Subtalar: -inversion -eversion.
Midtarsal: -pronation -supination
Tarso-metatarsals: move the metatarsals one by one.
Toes:
Ankle movements:
MOVEMENT: SUBTALAR:
MOVE THE HEEL:
Inversion---eversion
Midtarsal supination
Move the metatarsals one by one
MOVEMENTS:
IMPORTANCE OF THE BIG TOE (running, jumping)
Problem of hallux rigidus
EXAMINATION OF THE SHOES
Special tests
• The anterior draw tests the ATFL
• Test should be done with the ankle in 10o-20o
plantar flexion
• Low loads
79
Test for the ATFL
MOB TCD
Percussion and compression tests• Used when fracture is suspected• Percussion test is a blow to the tibia, fibula or heel to create
vibratory force that resonates w/in fracture causing pain• Compression test involves compression of tibia and fibula
either above or below site of concern
Thompson test• Squeeze calf muscle, while foot is extended off table to test
the integrity of the Achilles tendon
Positive tests results in no movement in the foot
Homan’s test• Test for deep vein thrombophlebitis• With knee extended and foot off table, ankle is moved into
dorsiflexion
• Pain in calf is a positive sign and should be referred
Compression Test Percussion Test
Homan’s Test Thompson Test
• Ankle Stability Tests– Anterior drawer test
• Used to determine damage to anterior talofibular ligament primarily and other lateral ligament secondarily
• A positive test occurs when foot slides forward and/or makes a clunking sound as it reaches the end point
– Talar tilt test• Performed to determine extent of inversion or eversion injuries• With foot at 90 degrees calcaneus is inverted and excessive motion indicates
injury to calcaneofibular ligament and possibly the anterior and posterior talofibular ligaments
• If the calcaneus is everted, the deltoid ligament is tested
Anterior Drawer Test Talar Tilt Test
Anterior Drawer Test
Talar Tilt TestBump Test
– Kleiger’s test• Used primarily to determine extent of damage to the deltoid ligament and
may be used to evaluate distal ankle syndesmosis, anterior/posterior tibiofibular ligaments and the interosseus membrane
• With lower leg stabilized, foot is rotated laterally to stress the deltoid
– Medial Subtalar Glide Test• Performed to determine presence of excessive medial translation of the
calcaneus on the talus• Talus is stabilized in subtalar neutral, while other hand glides the
calcaneus, medially• A positive test presents with excessive movement, indicating injury to
the lateral ligaments
Kleiger’s Test Medial Subtalar Glide Test
• Tinel’s Sign–Tap over posterior tibial nerve
–Positive test = tingling distal to area
–Indicates presence of tarsal tunnel syndrome
• Morton’s Test– Transverse pressure applied to heads of metatarsals – Positive test = pain in forefoot– Indicate presence of neuroma or metatarsalgia
Neurological Assessment
• Reflexes – Tendon reflexes should elicit a response – Achilles reflex should be assessed for the foot
• Sensation– Cutaneous distribution of nerves must be tested– Sensation can be tested by running hands over all
surfaces of foot and ankle
• Functional Tests
– While weight bearing the following should be performed
• Walk on toes (plantar flexion)
• Walk on heels (dorsiflexion)
• Hops on injured ankle
• Start and stop running
• Change direction rapidly
• Run figure eights
• Medial Tibial Stress Syndrome (Shin Splints)– Cause of Injury
• Pain in anterior portion of shin
• Stress fractures, muscle strains, chronic anterior compartment syndrome, periosteum irritation
• Caused by repetitive microtrauma
• Weak muscles, improper footwear, training errors, varus foot, tight heel cord, hypermobile or pronated feet and even forefoot supination can contribute to MTSS
• May also involve, stress fractures or exertional compartment syndrome
• Shin Splints (continued)– Signs of Injury
• Diffuse pain about distomedial aspect of lower leg• As condition worsens ambulation may be painful, morning pain and stiffness
may also increase• Can progress to stress fracture if not treated
– Care• Physician referral for X-rays and bone scan• Activity modification• Correction of abnormal biomechanics• Ice massage to reduce pain and inflammation• Flexibility program for gastroc-soleus complex• Arch taping and orthotics
• Shin Contusion– Cause of Injury
• Direct blow to lower leg (impacting periosteum anteriorly)
– Signs of Injury• Intense pain, rapidly forming hematoma w/ jelly like consistency• Increased warmth
– Care• RICE, NSAID’s and analgesics as needed• Maintaining compression for hematoma (which may need to aspirated) • Fit with doughnut pad and orthoplast shell for protection
• Compartment Syndrome– Cause of Injury
• Rare acute traumatic syndrome due to direct blow or excessive exercise
• May be classified as acute, acute exertional or chronic
– Signs of Injury • Excessive swelling compresses muscles, blood supply and
nerves• Deep aching pain and tightness is experienced• Weakness with foot and toe extension and occasionally
numbness in dorsal region of foot
Figure 15-20
– Care• If severe acute or chronic case, may present as medical
emergency that requires surgery to reduce pressure or release fascia
• NSAID’s and analgesics as needed Avoid use of compression wrap = increased pressure
• Surgical release is generally used in recurrent conditions– May require 2-4 month recovery (post surgery)
• Conservative management requires activity modification, icing and stretching
– Surgery is required if conservative management fails– Return to activity after surgery , light activity,10 days later
• Achilles Tendonitis– Cause of Injury
• Inflammatory condition involving tendon, sheath or paratenon• Tendon is overloaded due to extensive stress• Presents with gradual onset and worsens with continued use• Decreased flexibility exacerbates condition
– Signs of Injury• Generalized pain and stiffness, localized proximal to calcaneal
insertion, warmth and painful with palpation, as well as thickened
• May progress to morning stiffness
Achilles Tendinitis
Achilles TendinopathyAchilles Tendinopathy
Imaging Imaging
– Care• Resistant to quick resolution due to slow
healing nature of tendon
• Must reduce stress on tendon, address structural faults (orthotics, mechanics, flexibility)
• Aggressive stretching and use of heel lift may be beneficial
• Use of anti-inflammatory medications is suggested
• Achilles Tendon Rupture– Cause
• Occurs w/ sudden stop and go; forceful plantar flexion w/ knee moving into full extension
• Commonly seen in athletes > 30 years old
• Generally has history of chronic inflammation
– Signs of Injury• Sudden snap (kick in the leg) w/ immediate pain which rapidly
subsides
• Point tenderness, swelling, discoloration; decreased ROM
• Obvious indentation and positive Thompson test
Figure 15-20
Tendoachilles Rupture
Palpate the Tendon ProneRestingPosition
– Care• Usual management involves surgical repair for serious
injuries • Non-operative treatment consists of, NSAID’s,
analgesics, and a non-weight bearing cast for 6 weeks to allow for proper tendon healing
• Must work to regain normal range of motion followed by gradual and progressive strengthening program
Retrocalcaneal Bursitis (Pump Bump)Retrocalcaneal Bursitis (Pump Bump)
• Etiology– Caused by inflammation of
bursa beneath Achilles tendon
– Result of pressure and rubbing of shoe heel counter
– Chronic condition that develops over time
• May take extensive time to resolve
– Exostosis may also develop
• Signs and Symptoms– Pain with palpation
superior and anterior to Achilles insertion
– Swelling on both sides of the heel cord
Retrocalcaneal Bursitis (Pump Bump) cont.
• Management– RICE and NSAID’s used as needed– Ultrasound can reduce inflammation– Routine stretching of Achilles– Heel lifts to reduce stress– Donut pad to reduce pressure– Possibly invest in larger shoes with wider heel
contours
• Leg Cramps and Spasms(sudden, violent, involuntary contraction, either clonic (intermittent)
or tonic (sustained)– Etiology
• Difficult to determine; fatigue, loss of fluids, electrolyte imbalance, inadequate reciprocal muscle coordination
– Signs and Symptoms• Cramping with pain and contraction of calf muscle
– Management• Try to help athlete relax to relieve cramp• Firm grasp of cramping muscle with gentle stretching will relieve acute
spasm• Ice will also aid in reducing spasm• If recurrent may be fatigue or water/electrolyte imbalance
• Gastrocnemius Strain– Etiology
• Susceptible to strain near musculotendinous attachment• Caused by quick start or stop, jumping
– Signs and Symptoms• Depending on grade, variable amount of swelling, pain, muscle disability• May feel like being “hit in leg with a stick”• Edema, point tenderness and functional loss of strength
– Management• RICE, NSAID’s and analgesics as needed• Grade 1 should apply gentle stretch after cooling• Weight bearing as tolerated; heel wedge to reduce calf stretching while
walking• Gradual rehab program should be instituted
• Stress Fracture of Tibia or Fibula– Etiology
• Common overuse condition, particularly in those with structural and biomechanical insufficiencies
• Runners tends to develop in lower third of leg, dancers middle third
• Often occur in unconditioned, non-experienced individuals
• Often training errors are involved
• Component of female athlete triad
– Signs and Symptoms• Pain more intense after exercise than before
• Point tenderness; difficult to discern bone and soft tissue pain
• Bone scan results (stress fracture vs. periostitis)
Pes planus : common 20%
-GAIT: UGLY.
-INSPECTION STANDING: HEEL, ARCH, FOREFOOT.
-LIGAMENT LAXITY
-MOVE THE HEEL AND THE 1ST METATARSAL.
-EXAMIN THE TENDO ACHILLES
-May be asymptomatic
Pes cavusHigh arch
Varus
TARSAL COALSION:
Painful stiff flat foot
Usually bilateral, can be unilateral-Stiff subtalar.
MORE COMMON:calcaneo-navicular and subtalar.-Request CT scan
Plantar fascia– Dense, broad band of connective tissue attaching proximal and
medially on the calcaneus and fans out over the plantar aspect of the foot
– Works in maintaining stability of the foot and bracing the longitudinal arch
Plantar Fasciitis– “Catch all” term used for pain in proximal arch and heel– Common in athletes and nonathletes– Attributed to heel spurs, plantar fascia irritation, and bursitis
Plantar Fasciitis
Etiology– Increased tension and stress on fascia
• Particularly during push off of running phase
– Change from rigid supportive footwear to flexible footwear
– Running on soft surfaces while wearing shoes with poor support
– Poor running technique
– Leg length discrepancy, excessive pronation, inflexible longitudinal arch, or tight gastroc-soleus complex
Plantar Fasciitis cont.
Plantar Fasciitis cont.
Signs and Symptoms– Pain in anterior medial heel and along medial
longitudinal arch– Increased pain in morning
• Plantar fascia loosens after first few steps thus decreasing pain
– Increased pain with forefoot dorsiflexion
Management– Extended treatment (8-12 weeks)– Orthotic therapy is very useful
• Soft orthotic with deep heel cup
– Simple arch taping– Night splint to stretch plantar fascia– Vigorous heel cord stretching – Exercises that increase great toe dorsiflexion– NSAID’s and occasionally steroidal injection
Plantar Fasciitis cont.
Longitudinal Arch StrainLongitudinal Arch Strain
Etiology– Early season injury due
to increased stress on arch
– Flattening of foot during midsupport phase causing strain on arch
– May appear suddenly or develop slowly
Sign and Symptoms– Pain with running and
jumping– Pain below posterior
tibialis tendon accompanied by swelling
– May also be associated with sprained calcaneonavicular ligament and flexor hallucis longus strain
Longitudinal Arch Strain cont.
Management– Immediate care is RICE
• Reduction of weight bearing
– Weight bearing must be pain free– Arch taping may be used to allow pain free
walking
Apophysitis of the CalcaneusApophysitis of the Calcaneus(Sever’s Disease)(Sever’s Disease)
Etiology– Traction injury at
apophysis of calcaneus• Where Achilles tendon
attaches to calcaneous
Signs and Symptoms– Pain occurs at posterior
heel below Achilles attachment
– Pain occurs during vigorous activity
– Pain ceases following activity
Apophysitis of the Calcaneus
(Sever’s Disease) cont. Management
– Best treated with ice, rest, stretching and NSAID’s
– Heel lift could also relieve some stress
Heel ContusionHeel Contusion
Etiology– Caused by sudden starts,
stops or changes of direction
– Irritation of fat pad
– Pain often on the lateral aspect due to heel strike pattern
Sign and Symptoms– Severe pain in heel
– Unable to withstand stress of weight bearing
– Often warmth and redness over the tender area
Heel Contusion cont.
Management– Reduce weight bearing for 24 hours– RICE and NSAID’s– Resume activity with heel cup or doughnut pad
after pain has subsided – Wear shock absorbent shoes
Etiology– Exostosis of 1st metatarsal head
– Associated with…• Forefoot varus
• Wearing shoes that are too narrow or too short
• Wearing shoes with pointed toes
– Bursa becomes inflamed and thickens• Enlarges the joint and causes lateral malalignment of the great toe
• Bunionette (Tailor’s bunion) – Impacts 5th metatarsophalangeal joint – Causes medial displacement of 5th toe
Bunion (Hallux Valgus Deformity)
Bunion (Hallux Valgus Deformity) cont.
Signs and Symptoms– Initially…
• Tenderness• Swelling• Enlargement of joint
– As inflammation continues…• Angulation of the joint increases • Painful ambulation
– Tendinitis in great toe flexors may develop
Management
– Early recognition and care is critical
– Wear correct fitting shoes
– Orthotics may be used
– Padding over 1st metatarsal head with a tape splint between 1st and 2nd toe may be used
– Exercises for flexor and extensor muscles
– Bunionectomy may be necessary
Bunion (Hallux Valgus Deformity) cont.
Hallux valgus
SesamoiditisSesamoiditis
Etiology– Caused by repetitive
hyperextension of the great toe
– Results in inflammation
Signs and Symptoms– Pain under great to
• Especially during push off
– Palpable tenderness under first metatarsal head
Sesamoiditis cont.
Management– Orthotics that include metatarsal pads, arch
supports, and metatarsal bars– Decrease activity to allow inflammation to
subside
Morton’s ToeMorton’s Toe
Etiology– Abnormally short 1st
metatarsal (great toe)• 2nd toe looks longer
– More weight bearing occurs on 2nd toe as a result and can impact gait
– Stress fracture could develop
Signs and Symptoms– Possible stress fracture– Pain during and after
activity with possible point tenderness
– Positive bone scan – Callus development
under 2nd metatarsal head
Morton’s Toe cont.
Management– If no signs and symptoms – “don’t fix what
isn’t broken” – If associated with structural forefoot varus,
orthotics with a medial wedge would be helpful
Etiology– Development of bone spurs on dorsal aspect of first
metatarsophalangeal joint • Results in impingement • Loss of active and passive dorsiflexion
– Degenerative arthritic process involving articular cartilage and synovitis
– If restricted, compensation occurs with foot rolling laterally
Hallux Rigidus
Hallux rigidus:
O.A 1st MPJ
Hallux Rigidus cont.
Signs and Symptoms– Forced dorsiflexion causes pain– Walking becomes awkward due to weight bearing on lateral
aspect of foot Management
– Stiffer shoe with large toe box– Orthotics to increase rigidity of forefoot region within the
shoe – NSAID’s– Surgery may be requires
• Osteotomy to remove mechanical obstructions in effort to return to normal functioning
Etiology– Hammer toe
• Flexion contracture of the PIP joint, which can become fixed
– Mallet toe • Flexion contracture of the DIP joint, which can become fixed
– Claw toe • Flexion contracture of the DIP joint with hyperextension at the MP
joint
– All may be caused by wearing short shoes over an extended period of time
Hammer Toe, Mallet Toe, or Claw Toe
Hammer Toe, Mallet Toe, or Claw Toe cont.
Signs and Symptoms– The MP, DIP, and PIP can all become fixed – Swelling– Pain– Callus formation – Occasionally infection
Management– Wear shoes with more room for toes– Use padding and taping to prevent irritation– Shave calluses– Once the contracture becomes fixed, surgery will
be required to correct
Hammer Toe, Mallet Toe, or Claw Toe cont.
Overlapping ToesOverlapping Toes
Etiology– May be congenital
– May be caused by wearing shoes that are too narrow
Signs and Symptoms– Outward projection of
great toe articulation
– Drop in longitudinal arch
Overlapping Toes cont.
Management– Hammer toe: surgery is the only cure– Some modalities, such as whirlpool baths can
assist in alleviating inflammation– Taping may prevent some of the contractual
tension within the sports shoe
MetatarsalgiaMetatarsalgia
Etiology– Decreased flexibility of
gastroc-soleus complex– Typically emphasizes toe
off phase during gait– Fallen metatarsal arch
• Pes Cavus
Signs and Symptoms– Pain in ball of foot
• In the area of the 2nd and 3rd metatarsal heads
– Flattened transverse arch
– Depressing 2nd, 3rd, and 4th metatarsal bones
Metatarsalgia cont.
Management– Orthotics that elevate the depressed metatarsal
heads and/or medial aspect of calcaneus may be used
– Remove excessive callus build-up– Stretching of heel cord – Strengthening exercises for the intrinsic foot
muscles
Metatarsal Arch StrainMetatarsal Arch Strain
Etiology– Fallen metatarsal arch
• Pes Cavus
– Excessive pronation
Signs and Symptoms– Pain or cramping in
metatarsal region
– Point tenderness
– Weakness
– Positive Morton’s test
ManagementManagement- Pad to elevate metatarsals just behind - Pad to elevate metatarsals just behind ball of football of foot
Etiology– Thickening of nerve sheath of the common plantar
nerve where it divides into digital branches• Commonly occurs between 3rd and 4th metatarsal heads
where medial and lateral plantar nerves come together
– Also irritated by collapse of transverse arch of foot• Places transverse metatarsal ligaments under stretch,
compressing digital nerves and vessels
– Excessive pronation can be a predisposing factor
Morton’s Neuroma
Morton’s Neuroma cont.
Signs and Symptoms– Burning paresthesia in forefoot– Severe intermittent pain in forefoot– Pain relieved with non-weight bearing– Toe hyperextension increases symptoms
Management– Must rule out stress fracture
– Teardrop pad can be placed between metatarsal heads to increase space
• Decreases pressure on neuroma
– Shoes with wider toe box would be appropriate
– Surgical excision may be required
Morton’s Neuroma cont.
Subungual Hematoma
Etiology– Direct pressure
– Dropping an object on toe
– Kicking another object
– Repetitive shear forces on toenail
Signs of Injury– Accumulation of blood underneath toenail – Likely to produce extreme pain – May result in loss of toe nail
Management– RICE immediately
• Reduces pain and swelling– Relieve pressure within 12-24 hours
• Lance or drill nail• Must be sterile to prevent infection
Subungual Hematoma cont.
Metatarsalgia
Tunnel behind medial malleolus– Osseous floor – Roof composed of flexor retinaculum
Etiology– Any condition that compromises tibialis posterior,
flexor hallucis longus, flexor digitorum, and tibial nerve, artery, or vein
– May result from previous fracture, tenosynovitis, acute trauma, or excessive pronation
Tarsal Tunnel SyndromeTarsal Tunnel Syndrome
Tarsal Tunnel Syndrome cont.
Signs and Symptoms– Pain and paresthesia along medial and plantar
aspect of foot– Motor weakness and atrophy may result– Increased pain at night – Positive Tinel’s Sign
Management• NSAID’s and anti-inflammatory modalities• Orthotics• Possibly surgery if condition is recurrent
Foot RehabilitationGeneral Body Conditioning A period of non-weight
bearing is common, therefore alternative means of conditioning must be introduced– Pool running
– Upper body ergometer
General strengthening and flexibility should be included as allowed by injury
Progression to Weight Bearing If unable to walk without a limp, crutch or
cane walking should be utilized Poor gait mechanics will impact other joints
within the kinetic chain– Could result in additional injuries
Progress to full weight bearing as soon as tolerable
Foot Rehabilitation
Foot Rehabilitation
Joint Mobilizations Can be very useful in normalizing joint motions
Foot RehabilitationFlexibility Must maintain or re-
establish normal flexibility of the foot– Full range of motion is
critical for normal function Stretching of the plantar
fascia and Achilles tendon is very important
Strengthening Writing alphabet Picking up objects Ankle circumduction Gripping and
spreading toes Towel gathering Towel Scoop
Foot Rehabilitation
Neuromuscular Control Critical to re-establish because it is the
single most important element dictating movement
Muscular weakness, proprioceptive deficits, and ROM deficits challenge the athlete’s ability to maintain center of gravity without losing balance
Foot Rehabilitation
Foot Rehabilitation
Neuromuscular Control cont. Must be able to adapt to
changing surfaces– Involves highly integrative and
dynamic process that utilizes multiple neurological pathways
Proprioception and kinesthesia is essential in athletics
Figure 15-4
Neuromuscular Control Training– Can be enhanced by training in controlled
activities on uneven surfaces or a balance board
Figure 15-5 & 6
Taping and Bracing– Ideal to have athlete return w/out taping and bracing– Common practice to use tape and brace initially to enhance
stabilization– Must be sure it does not interfere with overall motor performance
Functional Progressions– Severe injuries require more detailed plan– Typical progression initiated w/ partial weight bearing until full
weight bearing occurs w/out a limp– Running can begin when ambulation is pain free (transition from pool
- even surface - changes of speed and direction)
Return to Activity– Must have complete range of motion and at least
80-90% of pre-injury strength before return to sport– If full practice is tolerated w/out insult, athlete can
return to competition– Must involve gradual progression of functional
activities, slowly increasing stress on injured structure
– Specific sports dictate specific drills
Footwear– Can be an important factor in reducing injury– Shoes should not be used in activities they were not made
for
Preventive Taping and Orthoses– Tape can provide some prophylactic protection– However, improperly applied tape can disrupt normal
biomechanical function and cause injury– Lace-up braces have even been found to be effective in
controlling ankle motion
Select a rigid shoe for pronators Select a flexible shoe with additional cushioning for
supinators Other considerations:
– Midsole design: controls motion along medial aspect of foot
– Heel counters: controls motion in rearfoot– Outsole contour and composition– Lacing systems – Forefoot wedges
Appropriate Footwear
Keep toenails trimmed correctly Shave down excessive calluses Keep feet clean Wear clean socks and shoes that fit
correclty Keep feet as dry as possible
– Prevents development of athlete’s foot
Foot Hygiene