Ankle and Lower Leg Exam Review
How to measure swelling
- Volumetric measure - girth measurements - pitting edema assessment
Chronic exertional compartment syndrome
- exercise exacerbates condition - muscle volume increases roughly 20% - tissue pressure remains high during contractions, impeding blood flow and causing muscle ischemia - pressure is not usually high enough to cause vascular collapse and rarely results in a medical emergency
Os trigonum sydrome
- inflammation of the posterior joint - inflammation of the ligaments surrounding os trigonum - fracture of the os trigonum - pathology involving the Stieda's process
5 Ps of compartment syndrome
- pain - pallor - pulselessness - paresthesia - paralysis
DVT risk factors
- recent surgery - fracture of the pelvis, femur, or tibia - spinal cord injury - use of contraceptives - recent pregnancy - cardiovascular disorders - periods of prolonged sitting (airplane travel)
Shin splints causes
- repetitive use - training errors - training on a hard surface - increasing load too quickly - incorrect shoe wear - muscle fatigue (dorsiflexor) - biomechanical factors (excessive pronation)
Acute exertional compartment syndrome
- represents a medical emergency - typically results from an acute trauma such as a fracture, kick to the leg, or other direct trauma - as a result of the acute trauma, vasodilation and bleeding within the compartment increases pressure and causes venous compromise and eventual collapse
Os trigonum fracture
- sudden onset of pain after forced plantarflexion or dorsiflexion - swelling lateral or medial to the Achilles tendon may be noted - patients report tenderness anterior to the Achilles tendon and posterior to the talus
Contributory factors for stress factors
- training errors - poor footwear - menstrual irregularities - diet - bone density - increased hip ER - tibial width - calf girth
Signs/symptoms of DVT
- unexplained warmth - tightness in the calf - pain during palpation
Rehab pyramid
1) correct deviations and decrease pain 2) flexibility and ROM 3) strength and endurance 4) balance, coordination, and agility 5) function 6) performance (sport-specific drills)
Ottawa ankle rules
1) patient is unable to weight bear for 4 steps 2) pain on medial malleolus and navicular 3) pain on lateral malleolus and base of the 5th MT
Anterior compartment
Contains the tibialis anterior, deep peroneal nerve/ anterior tibial vessels, extensor hallucis longus, and extensor digitorum longus
Anterior drawer test position
Foot position is slightly plantarflexed
Mechanical ankle instability
Gross laxity in one or more of the ankle's joints or insufficiency of the supporting structures - ROM beyond normal physiological limits - patient may also present with FAI - purely objective measure to joint displacement
Medial ankle sprain special tests
Talar tilt (eversion) and Kleiger (external rotation) test
Cotton test (lateral talar glide)
The Cotton test assesses the amount of lateral translation of the talus within the ankle mortise. Implications: Distal tibiofibular syndesmosis sprain.
Medial malleolar fracture
Usually an ankle Eversion injury, avulsion fracture - could be caused by compression of the medial malleolus or avulsion of the lateral malleolus
Deep vein thrombosis
a blood clot that has the risk of turning into a PE
Functional Ankle Instability
a self-reported finding that involves repeated ankle sprains in individuals who have normal findings during ligamentous stress tests and is associated with proprioceptive and neuromuscular deficits, decreased strength, and/or postural control - sensation of giving way - defined more subjectively
Lateral ankle sprain special tests
anterior drawer test ad medial talar tilt test (inversion)
Ligament involved in lateral ankle sprains
anterior talofibular ligament
Pitting edema assessment
based on the depth and duration of the indentation
Stress fracture imaging tools
bone scan (lots of radiation) or an MRI (better due to no radiation)
Ligament involved in medial ankle sprains
deltoid ligament
Shin splints pain
diffuse pain at the posteromedial tibial border - span of >5cm
Girth measurements
evaluated with a tape measure
Medial ankle sprain MOI
eversion, plantarflexed, pronated, abducted
Biggest cause for stress fractures
excessive pronation
High ankle sprain MOI
external rotation while foot is in dorsiflexion
Maisonneuve fracture
fibular fracture involving the interosseous membrane
Os Trigonum
formed when Stieda's process separates from the talus (looks like a snail shell)
Talus fracture
fracture typically seen in association with high ankle sprains due to the excessive dorsiflexion that crushes the talus
Athletes who are susceptible to Os Trigonum
gymnasts, dancers, and divers (due to prolonged periods or plantarflexion)
Medial tibial stress syndrome
inflammation of the periosteum along the posteromedial tibial border at or near the insertion of the long toe or ankle flexors
Lateral ankle sprain MOI
inversion and plantarflexion (supination as well), adduction
High ankle sprain special tests
modified Kleiger and the squeeze test
Homan's sign
pain in *calf upon dorsiflexion* of foot and may indicated thrombophlebitis
Stress fracture pain
pinpoint tenderness along the shaft of the bone
Compartment syndrome
results from increased pressure within the compartment (direct blow or exertional exercise)
Superficial posterior compartment
soleus, gastrocnemius, plantaris
Volumetric measurement
stick foot in water to see how high up the water rises; compare both segments
Lateral compartment
superficial peroneal nerve, peroneus longus, peroneus brevis, and fibula
Anterior drawer ligament test
talofibular and calcaneofibular ligament
Deep posterior compartment
tibialis posterior, flexor digitorum longus, peroneal vessels, flexor hallucis longus, tibial nerve and posterior tibial vessels
high ankle sprain structures
tibiofibular ligament and interosseous membrane (syndesmosis)
Location of tibial stress fractures
typically in the distal 1/3 of the tibia
