Foot and Ankle Flashcards

Question

Treatment of retrocalcaneal bursitis

Answer 1

* **activity modification, shoe wear modification, therapy, NSAIDs** * _first line of treatment_ * _techniques_ * ice * shoewear - external padding of Achilles tendon * PT * no injections * **Retrocalcaneal bursa excision and resection of Haglund deformity** * disease refractory to nonoperative management * _technique_ * midline, lateral, or medial J-shaped incision

Answer 2

* overuse - common in soccer players * imbalance of dorsiflexors and plantar flexors * poor technique * poor tendon blood supply - watershed area * 2-6cm proximal to insertion * genetic predisposition * fluoroquinolone antibiotics * inflammatory arthropathy

Answer 3

* **Achilles tendinosis** * tendon thickening * thought to be caused by anaerobic degeneration in portion of tendon with poor blood supply * Get a mucoid degeneration of the tendon due to age or reduced vascularity * Inability to heal with repetative microtrauma, often seen after rupture and can be painless * Especially middle age men who increase their activity * **Achilles paratenonitis** * involves inflammation of tendon sheath * Younger, due to repetative injury with inflammation around the tendon * Runners, shoe wear issues, young athletes who overtrain * **Tendinosis with paratenonitis** * Progression of disease = paratenonosis \< paratenonosis with tendonitis \< tendonitis alone * Usually stranding within the tendon shows starting to develop tendonitis * The further along the progression, the less likely to respond to therapy

Answer 4

**Achilles Tendonosis** * **Differnetial** * ****insertional tendonitis * retrocalcaneal bursitis * achilles tendonosis * peritenonitis * tendonosis * combined * **History** * Take a complete and AMPLE history * Age - Young (paratenonosis), old (tendinosis) * symptoms - gradual onset * Pain with activity, pain with ADL (will gradually become more painful as process continues) * Pain more proximal with increasing severity as time goes on * pain, swelling, warmth * worse symptoms with activity * difficulty running * Minimal pain - think tendonitis * PMHx - obesity, HTN, diabetes associated with tendionsis * **Physical exam** * Examine, Palpate - tendon thickening and tenderness 2 to 6 cm proximal to Achilles insertion * Move - pain throughout entire range of motion * Paratenonitis * Limited ROM * Pain is fixed through all ROM * Positive silverskiold test * **US - fluid around the tendon with hypoechoic regions** * **MRI** * disorganized tissue will show up as intrasubstance intermediate signal intensity * thickened tendon * paratendinosis * Fusiform swelling and high intesity with-in tendon (reflective of mucoid degeneration of tendinosis) * chronic rupture will show a hypoechoic region between tendon ends

Answer 5

* **activity modification, shoe wear modification, physiotherapy, NSAIDs** * first line of treatment * _techniques_ * Retraining * physical therapy with eccentric training * Gastroc stretching * shoewear * heel lifts or shock absorber * cast or removable boot (severe disease) * Orthoses to correct pronation (tendonitis) * _outcomes_ * **nonoperative management is 65% to 90% successful** * **glyceryl trinitrate patches, prolotherapy, and aprotinin injections** * Theory is injections to break down fibrous tissue - NOT appropriate for tenodonitis, only paratenonitis * _indications_ * evolving indications due to lack of evidence at this time * **\*\*Risks for failing non-op** * Age * Duration of symptoms * Degree of degeneration * **Percutaneous tenotomies** * longitudinal tenotomy made in the degenerative area * strip the anterior Achilles tendon with a large suture to free any adhesions * **open excision of degenerative tendon with tubularization** * moderate to severe disease that is refractory to non-op treatment * _Technique_ * Posterior incision with development of full thickness flaps * Incise paratenon and debride posterior, medial and lateral portion of the tendon * _outcomes_ * 70% to 100% successful * **tendon transfer (FHL, FDL, or PB)** * This is not used for paratenonosis, only for tendonitis * _indications_ * degeneration of \>50% of the Achilles tendon * \>55 years of age * MRI evidence of diffuse tendon thickening without a focal area of disease

Answer 6

Age Duration of symptoms Degree of degeneration

Answer 7

* degeneration of \>50% of the Achilles tendon * \>55 years of age * MRI evidence of diffuse tendon thickening without a focal area of disease

Answer 8

* Up to 40 accessory ossicles and multiple sesamoids have been described in the foot and ankle * **Definition** * _accessory ossicles_ - are secondary ossification centers that remain separated from the normal bone * _sesamoids_ - are bones that are incorporated into tendons and move with normal and abnormal tendon motion * **Most common ossicles** * os trigonum * accessory navicular (os tibiale externum) * os intermetatarseum * **Most common sesamoids** * _os peroneum_ * located in the peroneus longus tendon * _hallux sesamoids_ * located in the flexor hallucis brevis tendon at the base of the 1st metatarsal head * **Os trigonum** * 10-25% * Posterior ankle impingement, FHL entrapment * DDx - Shepherd's fracture * **Type II accessory navicular** * 2-12% * Posterior tibial tendon dysfunction * DDx - Navicular tuberosity avulsion frx, type I accessory navicular * **Os subfibulare** * 2% * Painful os subfibulare * DDx - Lateral malleolus avulsion frx * **Os peroneum** * 9-20% * Painful os peroneum, fracture, diastasis * DDx - Painful os vesalianum, bipartite os peroneum * **Os vesalianum** * 2% * Painful os vesalianum * Ddx - Avulsion frx of the 5th metatarsal base * **Hallux sesamoids** * ~100% * Fracture, stress fracture * DDx - Bipartite tibial sesamoid

Answer 9

**Os Trigonum** * **Definition** * sesamoid bone representing the seperated posterolateral tubercle of the talus * usually asymptomatic, but can become symptomatic and cause os trigonum syndrome * **Epidemiology** * 10-25% of the population have os trigonum * commonly symptomatic in ballet dancers due to extreme plantar flexion ("en pointe" toe position) * **Pathophysiology of os trigonum syndrome** * repetitive microtrauma (ankle plantarflexion) * may present as a stress fracture * acute forced plantarflexion * may present as an acute fracture * **Associated conditions** * FHL tenosynovitis or entrapment * **Osteology** * the secondary ossification center forms posterior to the talus between 8-13yrs * normally fuses with talus within 1yr * if the ossicle fails to fuse, it articulates with the talus through a synchondrosis * the os lies lateral to FHL, tibial nerve, PTT, and posterior tibial artery * **Presentation** * pain in "en pointe" position * **physical exam** * posterior lateral ankle pain with passive ankle plantar flexion * may have swelling and tenderness over FHL if associated with FHL tendinitis * **radiographs** * lateral radiograph with foot in plantar flexion * shows os trigonum impinged between posterior tibial malleolus and calcaneal tuberosity * os trigonum can be round, oval or triangular and of variable size * **MRI** * shows os trigonum and associated inflammation and edema in FHL tendon * **Differential diagnosis** * fracture of the posterior process of the talus (Shepherd's fracture) * FHL and posterior tibialis tendinitis * produce posterior medial ankle pain and tenderness * **NSAIDS, rest, immobilization, restricted weightbearing** * **surgical excision** * if nonoperative management fails * _techniques_ * through open lateral approach or posterior ankle arthroscopy

Answer 10

* **factors associated with decreased healing potential** * uncontrolled hyperglycemia * inability to offload the affected area * poor circulation * infection * poor nutrition * **factors associated with increased healing potential** * serum albumin \> 3.0 g/dL * total lymphocyte count \> 1,000/mm3 * **associated conditions** * _angiopathy_ * lesser effect than neuropathy * \>60% of diabetic ulcers have decreased blow flow due to peripheral vascular disease * _infection / osteomyelitis_ * high rates of associated osteomyelitis if bone is able to be probed, or is exposed at the base of the ulcer * 67% of ulcers that probe to bone have osteomyelitis * Organisms (polymicrobial) * S. aureus most common * gram negative in setting of abx

Answer 11

* **Grade 0** * Skin intact but bony deformities lead to "foot at risk" * Shoe modifications with serial exams * **Grade 1** * Superficial ulcer * Office debridement and contact casting * **Grade 2** * Deeper, full thickness extension * Operative formal debridement and contact casting * **Grade 3** * Deep abscess formation or osteomyelitis * Operative formal debridement and contact casting * **Grade 4** * Partial Gangrene of forefoot * Local vs. larger amputation * **Grade 5** * Extensive Gangrene * Amputation

Answer 12

* **Depth** * 0 * At risk foot, no ulceration * Patient education, accommodative footwear, regular clinical examination * 1 * Superficial ulceration, not infected * Off-loading with total contact cast, walking brace or special footwear * 2 * Deep ulceration, exposing tendons or joints * Surgical debridement, wound care, off-loading, culture-specific antibiotics * 3 * Extensive ulceration or abscess * Debridement or partial amputation, off-loading, culture-specific antibiotics * **Ischemia** * A * Not ischemic * B * Ischemia without gangrene * Non-invasive vascular testing and vascular reconstruction with angioplasty/bypass * C * Partial forefoot gangrene * Vascular reconstruction and partial foot amputation

Answer 13

**Diabetic Ulcer** * **History** * often painless * time, first noticed, treatment * hx of neuropathy or associated diabetic symptoms * sugar control history * PMHx * **Physical exam** * _depth of ulcer_ * probe from bone * presence of infection * look for cellulities, pus * check for gangrene * _Silfverskiöld test_ * _Semmes-Winstein_ * __go from smaller to larger * 5.07 = diabetes * _Circulation_ * assess dorsalis pedis and posterior tibialis pulses * ABI's \> 0.45 * toe pressure \>40mm Hg * _Transcutaneous oxygen pressures (TcpO2)_ * considered gold standard to assess wound healing potential * \> 30 mm Hg is a good sign of healing potential * **Labs** * WBC \> 1000 * ESR, CRP * albumin \> 3.0 * HgA1C * **Radiographs** * AP, lateral, and oblique of foot and ankle * evidence of flatfoot, boney prominence, charcot joint * OM * **MRI** * useful to determine presence of osteomyelitis * **Bone scan** * obtain with technetium Tc99m, gallium (Ga)67, or indium (In) 111 * useful to differentiate between * soft tissue infection * osteomyelitis * Charcot arthropathy * **Bone biopsy** * ****If grade 3 or you suspect infection

Answer 14

* albumin \> 3.0 g/dl * lymphocyte \> 1000 mm3 * _transcutaneous oxygen \> 30mmHg_ * __gold standard * ABI \> 0.45 * toe pressure \> 40mmHg

Answer 15

* **General** - factors important in deciding a treatment plan include * angiopathic vs. neuropathic * deep vs. superficial * +/- osteomyelitis, antibiotics based on bone biopsy culture sensitivities * +/- pyarthrosis * **Nonoperative** * _wound care_ * goals of wound care and dressings * provide moist environment * absorb exudate * act as a barrier * off-load pressure at ulcer * _shoe modifications_ * includes deep or wide shoes, custom insoles, rocker bottom soles, etc. * of the available shoe only modifications, **rocker sole shoes best** reduce the plantar pressure on the forefoot * medicare will cover modifications and custom shoes/insoles yearly * **total contact casting (TCC)** * gold standard for mechanical relief plantar ulcerations * _technique_ * weekly change with wound care * often necessary for up to 4 months * TCC followed by **Charcot restraint walker then custom shoe** * _pneumatic walking brace_ * alternative to TCC, same principal * allows better wound surveillance * compliance is an issue with significant foot deformity * _outcomes_ * if ulcer recurs, it is typically 3-4 weeks after cast removal * **surgical debridement, antibiotics, local wound care, contact casting** * grade 3 or greater ulcers should undergo I&D with antibiotic treatment before casting * _outcomes_ * high rates of associated osteomyelitis if bone is able to be probed, or is exposed at the base of the ulcer * **ostectomy +/- TAL (tendon-achilles lengthening)** * bony prominence causing internal pressure * _technique_ * TAL indicated if tight achilles * several studies have shown TAL to be effective to help heal and prevent recurrence of plantar forefoot ulcers * **partial calcanectomy +/- TAL** * large heel ulcers with associated calcaneal osteomyelitis * _outcomes_ * preserves limb length and decreases morbidity compared to higher level amputations * **syme amputation** * forefoot gangrene and a palpable posterior tibial artery pulse

Answer 16

* Diabetes * syrnix/syringomelia (UE) * spinal tumor (LE) * EtOH * syphilis (knee) * leprosy * dialysis * congential insensitivity to pain

Answer 17

**Charcot Foot** * **Mechanism** * Charcot flare may occur as a response to local trauma in a patent with neuropathy * Charcot neurpathy of midfoot may occur following ORIF of ankle fracture * **Epidemiology** * 50% of diabetics have neuropathy within 25 years of diagnosis * sensory neuropathy is most common (70%) * motor neuropathy presents as claw toes * intrinsic weakness and Achilles tendon contracture * _Type I diabetes_ * Charcot neuropathy presents in 5th decade (duration of diabetes of 20-24years) * _Type II diabetes_ * Charcot neuropathy presents in 6th decade (duration of diabetes of 5-9 years) * **incidence** * 0.1-0.4% of patients with diabetes * 7.5% of patients with diabetes and neuropathy * 9% to 35% have bilateral disease * **Pathophysiology** * _neuropathy_ * severe sequelae result from presence of both sensory and autonomic involvment * sensory dysfunction leads to lack of protective sensation. * autonomic dysfunction leads to drying of skin due to lack of normal glandular function. * _angiopathy_ * \< 33% of patients with diabetic ulcers have decreased arterial flow * **Theories** * _neuroanatomic_ * insensate joints subjected to repetitive microtrauma * _neurovascular_ * autonomic dysfunction increases blood flow through AV shunting, resulting in bone resorption and weakening * **Ulcer location** * _forefoot_ * skin breakdown secondary to increased pressure, exacerbated by tight Achilles tendon or gastrocnemius * treatment is total contact casting * _midfoot_ * increased pressure from architectural collapse * treatment is resection of offending bone (cuboid or cuneiform) through a separate incision from the ulcer * _hindfoot_ * vascular etiology * **Molecular biology** * RANK/RANKL/OPG triad pathway thought to be involved * involves IL-1 and TNFa * markers * bone turnover markers increased (increased osteoclastic activity) * bone formation markers unchanged

Answer 18

* **Type 1: involves tarsometatarsal and naviculocuneiform joints** * most common location (60% of cases) * collapse leads to fixed rocker-bottom foot with valgus angulation * **Type 2: involves subtalar, talonavicular or calcaneocuboid joints** * 10% of cases * unstable, requires long periods of immobilization (up to 2 years) * **Type 3A: involves tibiotalar joint** * 20% of cases * late varus or valgus deformity produces ulceration and osteomyelitis of malleoli * **Type 3B: follows fracture of calcaneal tuberosity** * late deformity results in distal foot changes or proximal migration of the tuberosity * **Type 4: involves a combination of areas** * **Type 5: occurs solely within forefoot**

Answer 19

* **Stage 0** * Joint edema * Radiographs are negative * Bone scan may be positive in all stages * **Stage 1 - fragmentation** * Joint edema * Radiographs show osseous fragmentation with joint dislocation * **Stage 2 - coalescence** * Decreased local edema * Radiographs show coalescence of fragments and absorption of fine bone debris * **Stage 3 - reconstruction** * No local edema * Radiographs show consolidation and remodeling of fracture fragments

Answer 20

**Charcot Foot** * **History** * Take a complete and AMPLE history * Characterize the event - trauma? * swollen foot and ankle * pain in 50%, painless in 50% * loss of function * PMHx - diabetes (1 vs 2), length of time, PVD * **Physical exam** * _Look_ * swollen, warm, erythematous joint * mimics infection * _skin temperature 3.3degC higher_ than unaffected side * **Put foot up on chair, if erythema resolves it's charcot** * Look for any evidence of prominences or ulcerations * _Feel_ * joint may be mechanically unstable * Silfverskiöld test * Neuro * Semmes-Winstein * go from smaller to larger * 5.07 = diabetes * _Circulation_ * assess dorsalis pedis and posterior tibialis pulses * ABI's \> 0.45 * toe pressure \>40mm Hg * _Transcutaneous oxygen pressures (TcpO2)_ * considered gold standard to assess wound healing potential * \> 30 mm Hg is a good sign of healing potential * **Laboratory** * HgA1C * ESR and WBC can be elevated making it difficult to differentiate from osteomyelitis * _Wound healing levels_ * absolute lymphocyte count \>1500/mm3 * serum albumin \>3.0g/dL * ABI \>0.45 * toe pressure \>40mmHg * _Wound culture_ * obtain biopsy, ulcer curettage, or aspiration (not wound swab) to rule out osteomyelitis before starting antibiotics * _Histology_ * synovial hypertrophy * detritic synovitis (cartilage and bone distributed in synovium) * **Radiographs** * obtain standard AP and lateral of foot, complete ankle series * _findings_ * early changes * degenerative changes may mimic osteoarthritis * late changes * obliteration of joint space * fragmentation of both articular surfaces of a joint leading to subluxation or dislocation * scattered "chunks" of bone in fibrous tissue * surrounding soft tissue edema * joint distension by fluid * heterotopic ossification * **Bone scan** * _technetium bone scan_ * may be misleading * positive for neuropathic joint and osteomyelitis * _indium WBC scan_ * will be negative (cold) for neuropathic joints and positive (hot) for osteomyelitis * this is a valuable study to differentiate from osteomyelitis * **MRI** * best for differentiating abscess from soft-tissue swelling * difficult to differentiate infection from Charcot arthropathy on MRI * **Angiography** may be considered if there is though of PVD

Answer 21

**Charcot Joint** * **diabetic team consult for blood glucose management** * **contact casting, medications** * _technique_ * use for 2-4 months, change every 2-4 weeks * Hindfoot and ankle (Type 3) will require a longer immobilization * Charcot restraint orthotic walker (CROW) boot can be used after contact casting * later, can be fitted with custom shoe with orthotics * _medications_ * bisphosphonates - promising * calcitonin * neuropathic pain medications * gabapentin * antidepressants * topical anesthetics * _outcomes_ * 75% healing rate * **resection of bony prominences (exostectomy) and TAL** * _indications_ * suitable for patient with viable healing potential and stable deformity creating skin at risk of continued ulceration * _technique_ * goal is to acheive plantigrade foot that allows ambulation without skin compromise * **arthrodesis** * _indications_ * for severe deformity * _outcomes_ * average time to **fusion is 3 to 5 months** * **amputations** * _indications_ * severe deformity not ammenable to arthrodesis * goal is for a partial or limited amputation if vascularity allows it

Answer 22

* **internal fixation** * screw, pin, plate, tibiocalcaneal nail * high complication rate * **external fixation** * _indications_ * morbid obesity * poor bone quality * poor soft-tissue envelope * ulcers with underlying osteomyelitis * _high complication rate (up to 70%)_ * infection (superficial and deep) * hardware malposition * recurrent ulceration * fracture * commonest complication is pin track infection

Answer 23

acceptable limited amputation that lead to a functionable and braceable foot include (forefoot stability is preserved if not more than 2 rays are resected) lateral three ray amputation medial two ray amputation two central ray amputation Lisfranc (with TAL) amputation Chopart amputation Syme amputation only perform in younger patient with good pulses at ankle)

Answer 24

* **Overview** * one gait cycle is measured from heel-strike to heel-strike * _consists of_ * **stance phase** * period of time that the foot is on the ground * ~60% of one gait cycle is spent in stance * **swing phase** * period of time that the foot is off the ground moving forward * ~40% of one gait cycle is spent in swing * **Stance phase ("I Like My Tea Presweetened")** * _initial contact_ * occurs when foot contacts the ground * FIRST ROCKER METATARSALGIA- heel - occurs only in the context of congenital deformity or tight heelcord * muscular contractions * *hip extensors contract* * _loading response_ (initial double limb support) * occurs after initial contact until elevation of opposite limb * SECOND ROCKER - stiff ankle, plantarflexed MT will cause increase pressure threw the foot * muscular contractions * *ankle dorsiflexors (tibialis anterior) contract eccentrically* to control plantar flexion moment * *quads contracts to stabilize knee* and counteract the flexion moment (about the knee) * _mid-stance (single limb support)_ * from elevation of opposite limb until both ankles are aligned in coronal plane * muscular contractions * *hip extensors and quads undergo concentric contraction* * _terminal stance (single limb support_) * from when ankles are aligned to until the opposite to when heel strikes in contralateral limb * muscular contractions * *toe flexors contract* * *The post tib will invert the subtalar joint to lock the hindfoot and provide a solid lever arm for toe-off* * THIRD ROCKER - forefoot on ground - progressive MTP deformities * _Pre-swing phase_ * from initial contact of opposite limb to just prior to elevation of ipsilateral limb * muscular contractions * *hip flexors contract to propel advancing limb* * **swing phase ("In My Teapot")** * _initial swing (toe off)_ * from elevation of limb to point of maximal knee flexion * muscular contractions * *hip flexors contract* * _mid-swing (foot clearance)_ * following knee flexion to point where tibia is vertical * muscular contractions * *ankle dorsiflexors contract to ensure foot clearance - mostly tib ant* * Anything comprimising tib ant will cause the extensors to fire to help recruit * Tight gastrocs will increase subtalar extension with the knee in extension, plantar fascia and achilles are overloaded * _terminal swing (tibia vertical)_ * from point where tibia is vertical to just prior to initial contact * muscular contractions * *hamstring muscles decelerate forward motion of thigh*

Answer 25

* **5cm anterior to S2 vertebral body** * displaced 5cm horizontally and 5cm vertically during adult male step

Answer 26

* **pelvic rotation** * pelvis rotates 4 degrees medially (anteriorly) on swing side * lengthens the limb as it prepares to accept weight * **pelvic tilt** * pelvis drops 4 degrees on swing side * lowers COG at midstance * **knee flexion in stance** * early knee flexion (15 degrees) at heel strike * lowers COG, decreasing energy expenditure * also absorbs shock of heel strike * **foot mechanisms** * ankle plantar flexion at heel strike and first part of stance * **knee mechanisms** * at midstance, the knee extends as the ankle plantar flexes and foot supinates * restores leg to original length * reduces fall of pelvis at opposite heel strike * **lateral displacement of pelvis** * pelvis shifts over stance limb * COG must lie over base of support (stance limb)

Answer 27

* **Etiology** * _Neuromuscular_ * __CMT/HMSN * CP * stroke * anterior horn cell * _Traumatic_ * __compartment syndrome * crush * talus nonunion * peroneal nerve * _Idiopathic_ * _Residual clubfoot_ * **Deformity caused by** * spasticity - contracted plantar fascia * Peroneus longous is stronger than tibialis anterior - plantarflexes first ray * Strong tibialis posterior, weak peroneus brevis * Weak flexor intrinsics overpowered by strong extensor extrinsics * **Pain** * Overloading of metatarsal heads - metatarsaliga * Prone to ankle sprains, peroneal injury, IT syndrome, medial knee arthrosis * Lateral stress fractures, claw toes, ankle impingement

Answer 28

* **History** * Pain on the lateral side of the foot * Stress fracture of the base of the fifth MT * Lateral ankle instability (from varus) * Metatarsaligia (distal migration of the fat pads) * Early degeneration of the medial side of the ankle * history for trauma, stroke, family history for HNMD * Goals of the patient * **Physical exam** * Assess for Calluses along metatarsal heads and lateral foot * Gait * High stepping gait due to equinus contracture or foot drop * Feel * Assess for pain along any tendons * Assess for pain along the ATFL or base 5th * Assess the tripod of the foot * Move * Map the strength of each tendon, look for deficiency * Feel stability of the ankle * _Neuro exam_ * Assess for bilateral pathology suggestive of CMT or polio * Assess for UMN or LMN pathology * Look at peroneal distribution * _Peak-a-Boo_ * Can see the heel from the front due to varus * _Coleman block test_ * flexible hindfoot will correct to neutral when block placed under lateral aspect of foot * _Silverskiold_ * Test for tight achilles/gastroc * always remove shirt and look for spinal dysraphism * **Consider referal to neurologist** * **EMGs** * If you suspect a neuromuscular condition * **Plain Radiographs** * AP * Talo-1st metatarsal angle (0-3 deg) * Measures the forefoot position * Lateral * Meary's angle * Calcaneal pitch * Subtalar arthritis * AP ankle * Varus of talus under mortise - hindfoot * Canale * Can look for any varus malunion or evidence of previous fracture * **Bone sca**n or sequence of lidocaine injections might help to find the pathology * **CT** * Can be done if there is presence of boney deformity * **MRI** * To assess vascularity of talus or other bones

Answer 29

* **Conservative - non-rigid deformity** * _Accomodative orthotics_ * custom, full length * __high shoe box for claw toes * Recessed first ray * Low arch support * Heel cushion * MT pad if metatarsalgia present * Ankle brace for instability * AFO for any foot drop or substantial weakness * _Baclofen, diazepam, Botulinum toxin_ * _PT_ - Gastrocnemius stretching, proprioceptive retraining * _Address any associated injuries_ * Stress fractures, ankle instability, peroneal tendon * **general surgical indications** * Surgery should be delayed until progression of the deformity begins to cause symptoms and/or weakness of the muscular units resulting in contractures of the antagonistic muscle units * Some will say you should do it right away because it is often a progressive deformity

Answer 30

* **plantar fascia release,** *posterior tibial tendon transfer***, tendoachilles lengthening (TAL), and +/- 1st metatarsal dorsiflexion osteotomy** * _indications_ * flexible hindfoot cavus deformities (normal Coleman block test) * Plantar fascia release through a medial incision * *+/- transfer posterior tibialis to dorsum of foot to improve foot drop (augment weak tibialis anterior)* * +/- transfer of peronues longus to brevis (to help offset pull threw arch and improve eversion) * In stroke patients you can use an 'out of phase' muscle - FDL or FHL * _Hallux Clawing_ * 1st metatarsal osteotomy and transfer of EHL to neck of 1st MT when hallux clawing combined with cavus foot * _Other options_ * TAL - depending on results of silverskiold (gastroc recession vs achilles lengthening) * Split anterior tibialis transfer * For a neurologic deformity * FDL/FHL release if the toes are clawed in a neutral position * Often done for stroke patients * Posteromedial release * Free the NV bundle * Subtalar and ankle capsule, deltoid ligament * Medial TN release * Following trauma or compartment syndrome may need to release or lengthen tendons * TSF * For a very severe deformity can use a frame for correction to prevent stretch of the NV structures * **calcaneal valgus producing osteotomy** * _indications_ * rigid hindfoot cavus deformities (abnormal Coleman block test) * _technique_ * combine with soft tissue procedure discussed above, and dorsiflexion 1st metatarsal osteotomy * **Supramalleolar osteotomy +/- derotation** * For a more severe deformity about the hindfoot * **Midfoot osteotomy** * For a more severely deformed foot * **Lateral ray lengthening** * Out of favour but an option for a severe deformity * Cuboid or calcaneous * **Dorsiflexion osteotomy first ray** * If the forefoot is pronated following hindfoot correction * Closing wedge dorsal osteotomy * Dorsal wedge 5mm = 12 deg change * Secure with dorsal plate and screws * **concomitant weil for second ray** * shortening \> 5mm * **triple arthrodesis** * severe rigid deformities * may be helpful in select cases but is falling out of favor * A calcaneal osteotomy may still be required if you can't get enough varus correction via the subtalar joint * Should be done in conjunction with tendon rebalancing or will see stress threw other joints

Answer 31

* up to 50% continue to experience symptoms following an acute ankle sprain * most common cause of chronic pain is a missed injury, including * injury to the anterior process of calcaneus * injury to the lateral or posterior process of the talus * injury to the base of the 5th metatarsal * osteochondral lesion * injuries to the peroneal tendons * injury to the syndosmosis * tarsal coalition * impingement syndromes

Answer 32

* **Mechanical** * Pathologic laxity * Arthrokinetic restriction * Synovial changes * Degenerative changes * **Functional** * Impaired proprioception * Impaired neuromuscular control * Impaired postural control * Strength deficits

Answer 33

* Injured ligaments * ATFL - 100% * CFL - 75% * PTFL - 10% * Grade I * no ligament disruption * minimal swelling * WBAT * Grade II * stretch without tear * moderate eccymosis * mild difficulty with WB * Grade III * complete tear * severe eccymosis * severe pain with WB

Answer 34

* **History** * pain with weight bearing * recurrent instability * catching or popping sensation may occur following recurrent sprains * Level of function, level of play * Disability with chronic injury * PMHx * **Physical exam** * focal tenderness and swelling over involved ligament(s) * Can use ottawa ankle rules * anterior drawer test * possible laxity with anterior drawer and eversion/inversion stress testing * Plantar flexion - ATFL * Dorsiflexion - CFL * full NV exam, test all liagments * examine for alternative pathology * **Radiographs** * indications for radiographs with an ankle injury include (Ottawa ankle rules) * inability to bear weight * medial or lateral malleolus point tenderness * 5MT bases tenderness * navicular tenderness * _ER rotation stress view_ * useful to diagnosis syndesmosis injury in high ankle sprain * look for asymmetric mortise widening * medial clear space widening \> 4mm * tibiofibular clear space widening of 6 mm * _varus stress view_ * used to diagnose injury to ATFL or CFL * measures ankle instability by looking at talar tilt and anterior talar translation * Not useful in acute injury as doesn't change treatment * **MRI** * _indications_ * consider MRI if pain persists for 8 weeks following sprain * useful to evaluate chronic injury * peroneal tendon pathology * osteochondral injury * Bone bruising, occult fracture, sinus tarsi, degeneration, impingement * Ligamentous injury

Answer 35

* **Anatomic repair** * imbrication of the lateral ankle liagments * Augmentation of the Broström repair with extensor retinaculum * **Tenodesis stabilization** * Peroneous brevis graft tenodesis to fibula and talus * Peroneus brevis graft tenodesis to fibula * Split peroneus brevis graft tenodesis to fibula and calcaneus

Answer 36

* **RICE, elastic wrap to minimize swelling, followed by therapy** * Should always be used in acute injury * Should always be the first line of treatment in chronic injury * _technique_ * may require short period of weight-bearing immobilization in a walking boot or cast * but early mobilization facilitates a better recovery * _therapy_ * once swelling and pain have subsided and patient has full range of motion begin **neurmuscular training** with a focus on peroneal muscles strength and propioception training * a **functional brace** that controls inversion and eversion is typically used during the strengthening period and used as prophylactic treatment during high risk activities thereafter * **early functional rehabilitation allows for quickest return to physical activity**

Answer 37

* **Suggested approach for chronic instability** * Ankle arthroscopy to assess concurrent pathology * Anatomic bronstum repair of the ligaments * Subsidize with reconstruction with ispilateral free gracilis if ligaments are elongated * Other options include hamstring or allograft * **Long term data lacking supporting anatomic repair vs reconstruction** * **arthroscopy** * _indications_ * recurrent ankle sprains and chronic pain caused by impingement lesions * anteriorinferior tibiofibular ligament impingement * posteromedial impingement lesion of ankle * _procedure_ * debride impinging tissue * **Gould modification of Brostrom anatomic reconstruction** * _procedure_ * an anatomic shortening and reinsertion of the ATFL and CFL * reinforced with inferior extensor retinaculum (gould modification) and distal fibular periosteum * _results_ * good to excellent results in 90% * **Tendon transfer and tenodesis (Watson-Jones, Chrisman-Snook, Colville, Evans)** * _procedure_ * a nonanatomic reconstruction using a tendon transfer * _technique_ * Uses peroneal tendon to reconstruct the ligament * any malalignment must be corrected to acheive success during a lateral ligament reconstruction * Coleman block testing used to distinguish between fixed and flexible hindfoot varus * _results_ * subtalar stiffness is a common complication * Not recommended due to loss of function of peroneals

Answer 38

* **History** * Take a complete and AMPLE history * Characterize the pain * midfoot pain (and in arch) with push off (second rocker) * History of trauma * PMHx - gout, inflammatory, DM2 * **Physical exam** * Look (examine) * longitudinal arch collapse with weight bearing * midfoot collapse (look like PTTI) * forefoot abduction * hindfoot valgus * equinuus contracture of achilles tendon * halux valgus * Feel - palpation of arch/midfoot leads to pain * Ankle ROM * Silverskiold * AP * arthritic signs in midfoot * abduction of forefoot * Lateral * loss of co-linearity between talus-1st MT (Meary's line) * apex of deformity is at the level of the midfoot * may show collapse of longitudinal arch

Answer 39

**Midfoot arthritis** * **NSAIDS, activity modification, orthotic/bracing** * _modalities_ * _steroid injections_ under xray guidance; can be diagnostic/therapeutic * should include _longitudinal arch support_s, a stiff sole & possibly a _rocker bottom_ * AFO can also be used with a rocker bottom * **Midfoot arthrodesis with bonegraft and internal fixation** * Bone graft is not commonly used and there is really no evidence to support it (unless the foot is flat and you want to plantarflex it) * then use a tricortical iliac crest graft * _Medial Column_ * Considerations * failure of non operative management * Which joints to fuse * Selective cortisone injection * Usually the first 2 rays, then the 3rd is often not necessary, but this varies * If there is sag at nav-cun joint, might need to extend fusion proximally * _outcomes_ * midfoot joints are non essential joints with fusion typically resulting in near normal foot function * \*\*Anatomic realignment is the most important predictor of good outcomes in post-traumatic OA * _Lateral Column_ * More mobile, at risk of nonunion and stress fractures * Options are limited and difficult * Peroneus brevis or tertius interposition arthroplasty * Spherical arthroplasty implants * _Post-op_ * 3 months NWB * Start walker at 12 weeks, with PT * Full recovery in one year * **Achilles tendon lengthening/hindfoot realignment** * may need to be done concomitantly

Answer 40

* **Approach** * Incision between 1/2 and over 4th, make sure you have an adequate skin bridge * Be careful, the NV bundle is over the base of the second * The perforator of dorsalis pedis is in between the first and second * Dissect with scissors, once down to bone can make flaps * **Clean the joint** * Laminar spreader * Clean the joint with curette * K-wires to trephanate the bone to promote healing * First fuse 1/2, then once they are stable to can fuse the talocuneiform joint if you need to * realign & fuse the 1st ray through the TMT & 2nd/3rd ray via the naviculocuneiform and intercuneiform joints * There are some small studies to suggest plates are better than lag screws alone * tarsometatarsal joints are 2-3 cm deep and warrant appropriate preparation prior to fusion * may use screws, staples, plates designed for midfoot fusions * Close with Nylon * **Postoperative management** * Bulky dressing and cast * Should remain NWB for 3 months * **Complications** * Fusion Nonunion * Neuroma * Stress fracture * Adjacent joint OA

Answer 41

* **Complications** * Fusion Nonunion * Neuroma * Stress fracture * Adjacent joint OA * Anatomic alignement of the joint is most predictive of good outcomes * Plates are stronger than screws (only small studies)

Answer 42

* **activity modification, bracing to immobilize the ankle, and NSAIDS** * indicated as first line of treatment in mild disease * _single rocker sole shoe_ modification can improve gait and pain symptoms * AFO * medications to manage arthropathy * **Operative** * indicated upon failure of conservative treatment in a patient with radiographic evidence of ankle arthritis * Address proximal deformity and foot deformity * Supramalleolar osteotomy * otherwise fusion will fail * Address any soft tissue deficit if there is only early OA * IE - cavus with bronstrum * **Ankle debridement with anterior tibial/dorsal talar exostectomy** * mild disease with pain during push off * **Distraction arthroplasty** * controversial but may be beneficial for mild disease * Releives the pressure off the joint * **Supramalleolar osteotomy** * mild to moderate disease with malalignment of ankle, with near-normal ROM * Dome osteotomy with plate fixation * Wedge ostetomy * **Arthrodesis** * _Options_ * External fixation - good for septic or osteopenic bone * Arthroscopic * older, less active * less deformity (\<15deg) * quicker recovery/DC from hosptial * Open * better debridement for more severe deformity * Important - adequate debridement, alignment, compression, ? Need for augmentation (graft) * **Arthroplasty****** * _indications_ * posttraumatic or inflammatory arthritis * elderly patient * _contraindications_ * uncorrectable deformity * severe osteoporosis * talus osteonecrosis * charcot joint * ankle instability * obesity, and young laborers increase the risk of failure and revision * **Some studies show arthrodesis is equivalent to arthoplasty, but there are no good long term data** * **Arthroscopic arthrodesis has shorter time to DC from hospital, but similar outcomes** * **Arthoplasty may be better with more severe adjacent joint disease - unclear in the lit, but more complications and revision surgery in the long term**

Answer 43

* patient selection is crucial * **indications** * posttraumatic or inflammatory arthritis * elderly patient * **contraindications** * uncorrectable deformity * severe osteoporosis * talus osteonecrosis * charcot joint * ankle instability * obesity, and young laborers increase the risk of failure and revision * **techniques** * new generation arthroplasty minimizes bony resection, retains soft tissue stabilizers, and relies on anatomic balancing * must balance the ankle at the time of arthroplasty * **outcomes** * recent 5-10 year outcome studies demonstrate up to 90% good to excellent clinical results * long-term studies are still pending on the newest generation of ankle arthroplasty * **complications** * syndesmosis nonunion * include wound infection, deep infection, and osteolysis

Answer 44

* **Indications** - painful arthritis following * infection * _trauma (most common cause)_ * chronic instability * AVN of the talus * inflammatory arthropathy * primary OA * neuropathic arthropathy * tumor resection * salvage for failed ORIF * salvage for failed TAA * **assess hindfoot joint and consider TTC or arthoplasty if there is invovlement**

Answer 45

* **Nonunion** * incidence * 10% non union rate * tobacco users have 2.7x risk * **Lateral plantar nerve injury** * **Superficial peroneal nerve** * injury to superficial peroneal nerve during transfibular approach * **Hindfoot arthritis** * 50% at 10 years * adjacent hindfoot arthritis commonly occurs following fusion * isolated hindfoot arthritis due to chronic pes planus is treated with subtalar joint arthrodesis

Answer 46

* **Optimal Position** * neutral dorsiflexion * 5-10° of external rotation * 5° of hindfoot valgus * **Talocalcaneal, calcanealcuboid and cubonavicular should be in good condition** * Otherwise consider replacement or multiple fusion * **If ankle malalignment present may need to stage the fusion** * Assess all soft tissues, previous scars, NV status * Neuropathy may require TTC * Alignment of the foot * Hindfoot ROM * All tendons * Still need function of plantarflexion and dorsiflexion * **Imaging** * Full foot and ankle views * Get full length standing views * Consider CT or MRI for AVN talus * **Arthroscopic arthrodesis** * only indicated if minimal deformity present(\<15 degrees) * Outcomes shown to be similar to open * poor soft tissue envelope, multiple medical co-morbidities * Establish Portals * Burr down subchondral bone * Percutaneous 6.5mm or 7mm screws using flouro - both medial * Can also use acutwist screws * 3 screws is ok - use the rule of thirds * **Mini-open** - minimal soft tissue stripping, but also doesn't allow for deformity correction * **Open arthrodesis** * _Anterior approach is easiest_ * Between Tib Ant/EHL or EHL/EDL * Preserves ability to do conversion to TAA if there is degerative joint disease later * 10 cm anterior to the joint * Carefully identify EHL and incise the sheath, take it laterally to protect the NV bundle * Incisie the capsule * Try to debride the bone without flat cuts, this will preserve length; want to also be able to make slight adjustments for positioning * Bone graft deficiet, otherwise unecessary * _Lateral approach_ with fibular osteotomy - with greater deformity and you need to correct the valgus, need to ostetomize the fibula to correct this * Incision between sural and superficial peroneal 10-12 cm * Osteotomize the fibula 6cm above the joint * Can make flat cuts or decorticate the joint * _Medial approach_ - can ostetomize the med mal * Two incisions * **Fixation** * _screw fixation - 2-4 screw_ - better than plates due to less soft tissue stripping and can be difficult to get compression threw a plate * From lateral process to medial cortex * Lateral tibia to medial talus * posterior tibia to talar neck * plate and screw construct * external fixation - lower fusion rates

Answer 47

* diabetic neuropathy * osteoarthritis * posttraumatic injury * talar AVN * RA involving the ankle and subtalar joints * failed TAR or TAA with insufficient talus for ankle fusion ## Footnote *You will maintain the same dorsi/plant with TTC or ankle fusion, but will loose 40% subtalar motion with TTC*

Answer 48

**TTC** * **History** * Pain, function, baseline function * Previous trauma, surgery * PMHx - diabetc control, PVD * Physical * Previous scars, obvious deformity * Ankle ROM, subtalar ROM * Function of tendons * NV status * Complete insensate foot is contraindication * **Imaging** * WB AP/lateral, oblique of both foot and ankle * consider full length standing * CT to assess boney antomy * MRI as needed * **Indications for TTC** * diabetic neuropathy * osteoarthritis * posttraumatic injury * talar AVN * RA involving the ankle and subtalar joints * failed TAR or TAA with insufficient talus for ankle fusion * **Contraindictions** * Insensate foot * Active infection * **Technique** * _Approach_ * Medial Mall, anterior, posterior * Lateral fibular osteotomy * Useful if there is severe deformity to get access to both the ankle and subtalar joints * Don't use if there is any consideration that you might convert to TAR later * Can be used for bone graft for significant bone loss * Decorticate your cartilage to bleeding bone, try to presever bone * Bone graft as necessary * _Alignment_ * Valgus if possible * 10 deg ER * Neutral plantarflexion, no dorsiflexion * Heel incision- between malleoli and 1 cm behind the chopart joint * Guide wire into the medullary canal of the tibia with flouroscopic guidance * Assess position * Drill 1mm over your nail to prevent fracture * Insert nail * Post-op * NWB 6 weeks * WBAT in air cast 6 weeks * fit for brace at 10-12 weeks with rocker bottom sole for transition

Answer 49

* Assess and realease achilles PRN * **Approach** - 7-8 cm * **lateral** * ****tip of the fibula to base 4th * between peroneals and EDC * elevate EDB * release calcaneocubiod ligament and capsule * **medial** * ****tip of medial mall to base of 1st * protect tib ant, cauterize the saphenous * release the spring ligament, incise TN capsule * Prepare the joints * chisel or osteotome to remove the cartilage, preserve the subchondral architecture * bone graft deficit only as necessary * Stabilize with k-wires * Cannulated 6.3mm screws * Calcanal-talar - compression * 2 in TN joint - retrograde * first compression * second postitional * Then antegrade anterioprocess into cuboid * Layered closure * Post-op * Assess wounds at 2 weeks * NWB 10 weeks * If healing then can start WB in an air cast for several weeks, then progress out of cast * **Complications** * nonunion * maluion * persistent pain * hardware irritaiton * infection * sural neuralgia

Answer 50

* **medial talar dome** * usually no history of trauma * more common * more posterior * larger and deeper than lateral lesions * **lateral talar dome** * usually have a traumatic history * more superficial and smaller * lower incidence of spontaneous healing

Answer 51

**Plain Radiographs** Stage 1: Small area of subchondral compression Stage 2: Partial fragment detachment. Stage 3: Complete fragment detachment but not displaced. Stage 4: Displaced fragment.

Answer 52

**CT** Stage 1: Cystic lesion within dome of talus with an intact roof on all view Stage 2a: Cystic lesion communication to talar dome surface Stage 2b: Open articualr surface lesion with overlying nondisplaced fragement Stage 3: Nondisplaced lesion with lucency Stege 4: Displaced fragment **used for grading and determining treatment**

Answer 53

* Good * younger patient * traumatic lesion * short duration * Bad * arthritis * subchondral cysts * large lesion

Answer 54

**Lesion of the Talus** * **Take a complete and AMPLE history** * Characterize the pain, previous trauma, surgeries, treatment * instability * pain, swelling, and mechanical symptoms such as catching or locking * Previous treatment, injections * PMHx * **Physical exam** * Effusion, alignment, gait * Cavus, planus can predisposed to trauma * Swelling, tender points * Rule out instability - anterior drawer * Assess tendon strenth, NV status * **Radiographs** * may be normal * may see subtle luceny or bone fragmentation * Make sure to rule out evidence of arthritis * Assess alignment * **CT** * The best way to observe and address bone loss * Used for staging and treatment planning * **MRI** * indicated in ankle sprains that do not heal with time * Can identify other pathology and qualify any cartilage damage * Often overestimates the boney loss and should not be used for staging * **Diagnostic Injection** * No relief should seek alternative treatment

Answer 55

**OCD Talus** * **Short leg cast and non weight bearing for 6 weeks** * nondisplaced fragment with incomplete fracture * **Operative** * Indicated for patients that have failed non-operative treatment * Identify and address any malalignment of the foot * CT to address bone loss and guide treatment * subchondarl cysts = bad outcome with microdrilling * Consider fusion if sclerosis or large talar deficiet * **arthroscopy with removal of the loose fragment and drilling of the base** * Should always try arthroscopic treatment first * _indications_ * size \< 1 cm * displaced smaller fragment with minimal bone on the osteochondral fragment (poor healing potential) * _Technique_ * Standard approach anteriorly * Assess for other pathology and treat * Can use a posteolateral portal to help get a more posterior * Assess and debride the defect; try to maintain containment (don't debride lateral or medial wall) * If posterior can use a transmalleolar drilling technique * _Post-op_ * NWB 2 weeks, the PT to progress activity * **retrograde drilling and or bone grafting** * _indications_ * **size \> 1 cm with intact cartilage cap** * **ORIF** * used for an acute dislpaced fragment with adequate ossoeus fragment * **osteochondral grafting** * _indications_ * size \> 1 cm and displaced * Failed arthroscopic treatment * May want to consider this as primary treatment for patients with subchondral cysts * _Contraindications_ * Kissing lesions * Arthritis * Diffuse osteonecrosis * _Approach_ - requires perpendicular visulaization * Medial malleolar osteotomy * Modified bronstrum * Lateral lesions often associated with ATFL attenuation * Approach/procedure can be combined to address both * Suture anchors to repair ATFL and CFL following the procedure * Options * OATS * From ipsilateral knee, allograft talus * ACI * Two stage procedure to harvest chondrocytes * Second stage lesion is prepared; periosteal flap is secured to lesion; chodrocytes are injected under the flap * Structural allograft * Measured from CT * Last resort * failed ACI/OATS * large lesion/axillary lesion * _rehabilitation_ * emphasize peroneal strengthening, range of motion, and proprioceptive training

Answer 56

Claw toe - due to extrinsics overpowering intrinsics (\*\*MOST COMMON) Cavus foot - instrinsic contractures Hammer toe Ischemic neuropathy associated with chronic pain Insensate foot Neuropathic pain, neuropathic ulceration

Answer 57

* indicated in patients with altered mental status * **absolute value of 30 to 45 mm Hg** or * **within 30 mm Hg of diastolic BP** (delta p) * if delta p is less than 30 mmHg intraoperatively, _check preoperative diastolic pressure_ and follow postoperatively as intraoperative pressures may be low and misleading

Answer 58

**Emergent Fasciotomy** * **9 major compartments of foot** * medial * lateral * interosseous (x4) * central (x3: superfical, middle, and deep) * posterior tibial neurovascular bundle and quadratus plantae are in the deep central compartment * Can be done through 1-3 incisions, a dual incision approach is the gold standar * **dorsal medial incision** * in between the 1/2 ray * allows decompression of 1st and 2nd interosseous (lateral), medial, and deep central compartments * **dorsal lateral incision** * in line with 4th ray * allows decompression of 3rd and 4th interosseous (lateral), superfical central, middle and central) * some add an additional medial incision * **Treatment of sequale** * ****try to treat non-opearatively * can try posterior tibial nerve neurolysis * treat claw toes with IP fusion and MTP capsulectomy * treat cavus as deformity requires

Answer 59

cellulitis with abcess felon septic arthritis OM with abcess OM refractory to antibiotics nec fasc

Answer 60

* **tetanus booster and I&D** * _indications_ * recent (within hours) puncture wound with no evidence of infection * if open wound, bedside irrigation and debridement * no standard prophylactic abx for acute (within hours) injury, but should cover for Pseudomonas if evidence of infection * **surgical debridement** * _indications_ * indicated in late/delayed presentation with deep infection with or without osteomyelitis * foreign body removal * no improvement with PO antibiotics * _technique_ * tract and soft tissue debridement * deep culture * bony curretage (if osteo) * packing with wick to allow for healing by secondary intention * _postoperative_ * follow with IV antibiotics (coverage for pseudomonas) * convert to PO antibiotics once clinical picture improves * _antibiotic choice_ * preferred antibiotics * ciprofloxacin or levofloxacin (except in children) * alternative antibiotics: ceftazidime or cefepime

Answer 61

* Longitudinal tears of the peroneus brevis and or longus * usually brevis at the level of the groove * Presence of peroneus quartus * Long brevis muscle belly * Large peroneal tubercle

Answer 62

Grade 1 - both strained Grade 2 - both torn, repairable Grade 3 - both torn, irrepairable - FHL or gracilis graft

Answer 63

* can have an ossicle **(os peroneum)** located within the tendon body * Usually located just under the cuboid * **Less common, associated with DM, RA, HTN** * Usually tear at the cuboid *brevius tears are more common and usually occur at the level of the fibula*

Answer 64

* peroneal longus is posterior in the sulcus (longus takes the long way around) * deepened by a **fibrocartilaginous rim** (still only about 5 millimeters deep) * covered by **superior peroneal retinaculum (SPR**) * originates from the posterolateral ridge of the fibula and inserts onto the lateral calcaneus (peroneal tubercle) * the inferior aspect of the SPR blends with the inferior peroneal retinaculum * is the _primary restraint the peroneal tendons_ within the retromalleolar sulcus * Cruciate, crural ligament * **SPR is re-enforced by ligaments** * Tibotalar ligament * Calcaneofibular ligament * PITFL

Answer 65

**Grade 1** The SPR is partially elevated off of the fibula allowing for subluxation of both tendons **Grade 2** The SPR is separated from the cartilofibrous ridge of the lateral malleolus, allowing the tendons to sublux between the SPR and the cartilofibrous ridge **Grade 3** There is a cortical avulsion of the SPR off of the fibula, allowing the subluxed tendons to move underneath the cortical fragment **Grade 4** The SPR is torn from the calcaneous, not the fibula

Answer 66

* **History** * Take a complete and AMPLE history * Usually young patient, * patients often report they felt a pop with a dorsiflexion ankle injury * clicking, popping and feelings of instability or pain on the lateral aspect of the ankle * **Physical exam** * _Examine (Look)_ * swelling posterior to the lateral malleolus - for grade1 and 2 when there is only a partial tear * Look for hindfoot varus with associated cavus foot - block test * _Palpate (feel)_ * tenderness over the tendons * 'pseudotumor' over the peroneal tendons * Anterior drawer for CFL and ATFL * _ROM (move)_ * voluntary subluxation of the tendons +/- a popping sound * _apprehension tests_ * the sensation of apprehension or subluxation with active dorsiflexion and eversion against resistance cause subluxation/dislocation and apprehension * _compression test_ * pain with passive dorsiflexion and eversion of the ankle * **Radiographs** - AP, lateral, mortise weight bearing views * recommended views - _best recognized on an internal rotation view_ * Get foot XR - needed to evaluate for varus hindfoot or evidence of cavus, other boney injuries * may see a cortical avulsion off the distal tip of the lateral malleolus (_rim fracture_) * Hypertrophy of peroneal tubercle * Rule out os peroneum fracture * **US** * Can assess for fluid around the tendons * Can do a dynamic test to assess for subluxation of the tendons * **MRI** * best evaluated with axial views of a slightly flexed ankle * Look for fluid in the tendon sheath, abnormalities to tendons * can demonstrate anatomic anomalies leading to pathology * peroneus quartus muscle * low-lying peroneus brevis muscle belly * Hypertrophied peroneal tubcerle

Answer 67

* **Rest, ice, NSAIDS, orthoes, PT** * PT for stretching and eccentric training * short leg cast immobilization and protected weight bearing for 6 weeks * all acute injuries in nonprofessional athletes * _technique_ * tendons must be reduced at the time of casting * _outcomes_ * success rates for nonsurgical management are only marginally better than 50%. * **Approach to operative treatment** * Consider damage to tendons * Consider predisposition to subluxation * repair of superior peroneal retinaculum and deepening of the fibular groove * Debride peroneus quartus * Debride peroneal tubercle * Address any foot deformities * Make sure if they have hindfoot varus that you do a corrective osteotomy to take the tension off your repair * **Excise longitudinal tears indications** * acute tendon dislocations in serious athletes who desire a quick return to a sport or active lifestyle * presence of a longitudinal tears * **groove-deepening with soft tissue transfer and/or osteotomy** * _indications_ * chronic/recurrent dislocation refractor to non-operative treatment * _technique_ * Supine, lateral approach * Address tendons * Debride and tubularize brevis * Debride brevis and tenodes brevis to longus * less able to reconstruct SPR so treatment focuses on other aspects of peroneal stability * typically involves groove-deepening in addition to soft tissue transfers or bone block techniques (osteotomies to further contain the tendons within the sulcus) * plantaris grafts can act to reinforce the SPR, can reconstruct with CFL * hindfoot varus must be corrected prior to any SPR reconstructive procedure * **Post-op care** * SLC, NWB for 6 weeks * WBAT in air cast with start ROM at 8 weeks * Resume strength and return to activity at 3 months

Answer 68

* Usually associated with less healthy - DM, RA, HTN * Chronic pain over the lateral foot * Pain distal to the fibula with weakened eversion and platarflexion of the first ray * Painful os peroneum will have pain over the latearl side of the foot * **Imaging** * Harris views to assess enlargement of the peroneal tubercle * Foot views to look at where and if there is an os peroneum, assess for any fracture * **Treatment** * Conservative * Operative * Debridement with tubularization * Debridement of os with tubularization * End-to-end repair * Debridement with tenodesis to brevis

Answer 69

* _Plantar Fascitis_ * _Heel Pad atrophy_ * Difficult to diagnose and treat * _Baxter's nerve entrapments_ * Distal to heel pad but can often occur in conjunction with plantar fascitis * Will see atrophy of abductor digiti quinti * Always try conservative measures first * Then if \> 3 months with refractory cases * Can release abductor hallucis * _Calcaneal Stress Fracture_ * Gradual increasing pain in calcaneus * XR - interuption in trabecular lines with sclerosis at cal tub * MRI and bone scan can be diagnostic * Tx * Period of immobilization with gradual return to activities * _Tarsal Tunnel Syndrome_ * Overdiagnosed * Pain in posteromedial ankle * MRI for space occupying lesion * Sx for very refractory cases or space occupying lesion * Release behind posterior mall and abductor hallucis sheath

Answer 70

* DORSAL * Extensor digitorum brevis * FIRST * Abductor hallucis * Flexor digitorum brevis (FDB) * Abductor digiti minimi * SECOND * Quadratus plantae * Lumbrical muscles * Flexor digitorum longus (FDL) * Flexor hallucis longus (FHL) * THIRD * Flexor hallucis brevis * Adductor hallucis * Flexor digiti minimi brevis * FOURTH * Dorsal interosseous * Plantar interosseus * Peroneus longus * Tibialis Posterior

Answer 71

* abductor hallucis * flexor digitorum brevis * quadratus plantae * Irritation of the first branch of the lateral planter nerve (baxter's nerve) found between first and second layers

Answer 72

* **History** * Take a complete and ample history - PQRST of pain * sharp heel pain * insidious onset of heel pain when first getting out of bed * worse at the end of the day after prolonged standing * relieved by ambulation, warming up * No weakness or numbness * PMHx - often history of obesity * **Physical exam** * tender to _palpation at medial tuberosity of calcaneus_ * Silverskiold - tight Achilles tendon (limited ankle dorsiflexion) * **Radiographs** * often normal * may show plantar heel spur * **Bone Scan** * useful to rule out stress fracture of the calcaneus * **EMG** * useful to rule out entrapment of baxter's nerve * **night splinting & stretching programs** * _indications_ * first line of treatment * _technique_ * plantar fascia-specific stretching * achilles stretching * pre-fabricated shoe inserts * _outcomes_ * stretching programs have equally successful satisfaction outcomes at 2 years * pre-fabricated shoe inserts shown to be more effective than custom orthotics in relieving symptoms when used in conjunction with achilles and plantar fascia stretching * **shock wave treatment** * _indications_ * second line of treatment * _technique_ * painful for patients * _outcomes_ * efficacious at 6 month f/u * **surgical release with plantar fasciotomy** * _indications_ * refractory disease * _technique_ * can be done open or arthroscopically * resection of heel spurs does not improve outcomes * Can consider achilles release if positive silverskiold * _outcomes_ * complications common and recovery can be protracted

Answer 73

**Freiberg's Infraction** * Osteonecrosis most often seen in 2nd second metatarsal (MT) head * term is a combination of infarction and fracture * **demographics** * most commonly seen in patients _13-18 years_ * more common in _female adolescent athletes_ * **Risk factors** * more common in patients with long 2nd metatarsals * **Pathophysiology** * thought to be related to a disruption in the blood supply due to microtrauma and stress overloading * leads to eventual collapse of 2nd MT head

Answer 74

* Stage 1 * Subchondral fracture visible only on MRI * Stage 2 * Dorsal collapse of articular surface on plain radiographs (best seen on oblique) * Stage 3 * Collapse of dorsal MT head, with plantar articular portion intact * Stage 4 * Collapse of entire MT head, joint space narrowing * Stage 5 * Severe arthritic changes and joint space obliteration

Answer 75

* **activity limitations, NSAIDS, immobilization** * _indications_ * early stage of disease * _technique_ * short leg walking cast for 3-4 weeks * can be used if symptoms are severe and do not improve with orthotics * stiff-soled shoe with MT bars or pads * typically used after period of casting * **metatarsophalangeal arthrotomy with removal of loose bodies** * indications * very rarely indicated * only if extensive nonoperative management fails * **dorsiflexion closing and shortening osteotomy** * _indications_ * dorsal disease involvement of bone and cartilage * **DuVries arthroplasty (partial MT head resection)** * _indications_ * severe stage 4 or 5 disease * plantar cartilage is not sufficient to reconstruct joint

Answer 76

* **Type I** * Enlarged 5th MT head or lateral exostosis * Treatment - Condylectomy (excision of lateral bony eminence) * **Type II** * ****Congenital bow of 5th MT, normal 4-5 IMA * Chevron (distal) osteotomy +/- lateral eminence resection * **Type III** * ****Increased 4-5 IMA (most common) * Oblique mid-diaphyseal metatarsal osteotomy * shave plantal aspect 5th MT head if plantar callosity present (never excise 5th MT head)

Answer 77

* **Stress fracture (40%)** * Repetitive loading * **Chondromalacia/sesamoiditis (30%)** * Pain on palpation and PROM with no XR changes * May have crepitus * Predisposed by malalignment (cavus) * **Acute fracture (10%)** * Need to differentiate from bipartate * **osteochondritis dissecans (10%)** * Female, usually adolescent but all ages * Bone scan may be cold until revascularization * **OA (5%)** * Osteophytes on sesamoids can lead to intractable platar keratosis * **Bursitis (5%)** * **Symptomatic bipartate** * **Dislocation** * **sprain "turf toe"** * FHB tendonitis, infection, nerve impingement must be considered

Answer 78

* **Epidemiology** * _tibial sesamoid more commonly injured_ * has greater weight bearing status * larger than lateral sesamoid * **Mechanism** * forced dorsiflexion of first MTP * potential avulsion of plantar plate off base of phalanx * proximal migration of sesamoids * **Associated conditions** * bilateral sesamoiditis should raise alarm and concern for reiter's disease (urethritis, conjuctivitis / iritis, inflammatory bowel disease) * psoriatic arthritis * seronegative RA

Answer 79

* Inserts into the plantar plate, the fibular sesamoid inserts also onto the base of the MT head * tibial is larger and takes more weight * **Blood supply** * Planter arch (25%), medial arch (25%), both (50%) * Medial and proximal * **Function** * absorbing weight-bearing pressure (50%) * reducing friction at MT head * protect FHL tendon * glides between sesamoids * provide fulcrum for flexor hallucis brevis that increases MTP flexion power * bipartite sesamoid present in 10-25%, apparent at age 8-10yo * 97% are in the tibial sesamoid * 25% bilateral * **Biomechanics** * sesamoid function is analogous to the patella as they increase the mechanical advantage of the FHB

Answer 80

Irregular cortices Fragmentation Callus Bone scan Evidence of fracture in OR

Answer 81

* **Radiographs** * Views * AP and lateral of foot * medial oblique (sesamoid view) * axial sesamoid view * findings * _proximal migration of sesamoids_ - be suspicious of intrinsic minus hallux * **Bone scan** * helps distinguish a bipartite sesamoid from a fracture * use caution with interpretation as 25%-30% of asymptomatic patients can have increased uptake * increased uptake compared to uninjured side helps diagnosis * **NSAIDs, reduced weightbearing, activity modification, orthoses** * indicated as first line of treatment * **short leg cast with toe extension** * acute fracture (controversial) * **Shaving keratotic lesion** * keratotic lesion present increasing pressure on sesamoids * **\*Acute fractures can be fixed with 2.0mm screws** * **partial or complete sesamoidectomy** * nonoperative management fails after 3-12 months * Historically was the most common form of treatment * Bilateral excision leads to cock-up deformity and unilateral can lead to valgus/varus * Theoretically will put FHL at risk of rupture * Should be kept available only as a salvage procedure * technique (see below) * **autologous bone grafting** * nonunion or fracture * Good outcomes reported * **dorsiflexion osteotomy** * plantar-flexed first ray with sesamoid injury

Answer 82

* **Cock-up deformity** * removal of both sesamoids is associated with a high incidence of cock-up deformity of the great toe * caused by weakening of the flexor hallucis brevis tendon, which should be meticulously repaired after sesamoid excision * Can also be caused by iatrogenic injury to FHL * excision of both sesamoids should be avoided * **Hallux valgus** * may be caused from tibial sesamoid excision * **Hallux varus** * may be caused by fibular sesamoid excision * Meticulous repair of adductor and FHB is required * **Fracture**

Answer 83

* 4 approaches total, 2 for each sesamoid * **approach to tibial sesamoid** * _Intra or extra medial artricular_ * _Medial approach_ * Protect plantar nerve * Go intra or extra-articular * Protect FHL * high risk of injuring proper branch of medial plantar nerve * **approach to fibular sesamoid** * _Dorsolateral_ * protect the common digital nerve and the transverse metatarsal ligament * Incise the adductor off the MT and sesamoid, incision the sesamoid ligament * Protect FHL * Need to repair the adductor/ligament after * _plantar approach_ * Medial to base 1st MT, protect lateral plantar nerve branch under sesamoid * Incisie adductor/FHB conjoint tendon to expose sesamoid - repair this after procedure * beware for proper branch to lateral side of hallux first common branch to first web space * **technique** * may be partial or complete sesamoidectomy * sesamoid shaving (contraindicated in a patient with a plantar flexed 1st MT) * Grafting for OCD or stress fracture * Fixation of acute fracture with 2.0mm screws * **Post-operative** * Cast, NWB, gradual return to activity * Can help prevent complications

Answer 84

* **Mechanism & pathophysiology** * hyperextension of the great toe MTP joint * hyperextension compounded by axial loading of the posterior hindfoot * occurs in collision and contact sports when athlete pushes off to accelerate * **Associated injuries** * sesamoid fracture * stress fracture of proximal phalanx * hallux rigidus (late sequelae) * **Prognosis** * can be a devastating injury to the professional athlete

Answer 85

* **XR** - will show proximal migration of the sesamoids * **MRI** - will show rupture of the volar plate * **rest, stiff-sole shoe or walking boot** * nonoperative modalities indicated in most injury patterns * early icing * stiff-sole shoe or rocker bottom sole to limit motion * taping in plantar flexion * more severe injuries may require walker boot or short leg cast * therapy * progressive motion once the injury is stable * **surgical repair** * _indications_ (rarely necessary) * retraction of sesamoids * fracture of sesamoids with diastasis * traumatic bunions * loose fragments in the joint * _technique_ * abductor hallucis transfer may be required if plantar plate or flexor tendons cannot be restored

Answer 86

* decrease tarsal arch height * increased strain of the cuboid * intensify stress in the midfoot and metatarsal bones * Post- operatively * acute plantar fasciitis * forefoot stress fractures * calcaneal and cuboid fractures * medial or lateral column foot pain ## Footnote ***Release of \>40% of the plantar fascia can have biomechanical consequences on the foot***

Answer 87

* divide supericial fascia of the abductor hallucis * fascia between abductor hallucis and plantar quadratus is released * releases the nerve between the two * a portion of the plantar fascia is incised * medial heel spur is resected if present

Answer 88

_AP foot_ * Increased talonavicular uncoverage * Increased talo-1st MT angle (Simmon angle) _Lateral_ * Increased talo-1st MT angle (Meary angle) * Decreased calcaneal pitch * Decreased medial cuneiform-floor height (loss of arch) * Subtalar arthritis (Stage 3) _Ankle mortise_ * Talar tilt (stage IV)

Answer 89

_In-shoe orthosis: Stage I, II_ Custom molded in-shoe orthosis with medial forefoot post UCBL with medial posting _AFO_ Stage \> II patients who are not operative candidates

Answer 90

calcaneus lateral opening wedge osteotomy For lateral column lengthening

Answer 91

Medial calcaneal closing wedge for correction of varus hindfoot (Not lengthening)

Answer 92

Collapse of medial longitudinal arch Hindfoot valgus Forefoot abduction and varus (too many toes sign) Achilles contracture

Answer 93

Plantarflexion medial cuneiform osteotomy via dorsal opening wedge osteotomy Done for residual forefoot varus/supination after hindfoot correction in PTTI

Answer 94

2-6cm proximal to navicular insertion between medial malleolus and navicular

Answer 95

AFO best for posterior tibial tendon insufficiecy Classic indication for AFO

Answer 96

pseudotumour at ankle (palpable mass) Weakness in dorsiflexion (will recruit toes) Loss of contour of tendon

Answer 97

Direct repair sliding tendon graft EHL transfer or tenodisis Free tendon graft (autograft vs. allograft)

Answer 98

Older age Diabetes Fluoroquinolone use Local steroid injection Inflammatory arthritis

Answer 99

tobacco abuse steroid use female gender diabetes mellitus.

Answer 100

Superior peroneal retinaculum

Answer 101

rapid dorsiflexion of an inverted foot reflexive contraction of PL and PB tendons leads to tears in the tendon or tear of the superior retinacular ligament

Answer 102

Apprehension or subluxation with resisted active dorsiflexion and eversion Internal rotation view is best x-ray

Answer 103

Plantar fascia stretching program (better than Achilles stretching program) Pre-fabricated shoe inserts (better than custom orthotics)

Answer 104

Pseudomonas aeruginosa

Answer 105

Obesity Decreased ankle dorsiflexion in non-athletic population (Tightness of the foot and calf) Weight bearing endurance activity (dancing, running)

Answer 106

ATFL injury

Answer 107

CFL injury

Answer 108

ER stress test \>4mm medial clear space \>6mm tibiofibular clear space

Answer 109

injury to the anterior process of calcaneus injury to the lateral or posterior process of the talus injury to the base of the 5th metatarsal osteochondral lesion injuries to the peroneal tendons injury to the syndesmosis tarsal coalition impingement syndromes

Answer 110

anatomic lateral ligament (ATFL±CFL) reconstruction with augmentation from inferior extensor retinaculum

Answer 111

Think about what is knocked out by level: L1: equniovarus L2: equinovarus L3: equinovarus L4: cavovarus L5: calcaneovalgus S1: Foot deformity (no ankle)