56: Digital Deformities - Yoho

Question 1

define hammertoe

Answer 1

A deformity in which the proximal phalanx of one of the smaller toes is bent upward or is dorsiflexed at the metatarsal-phalangeal joint, and the middle and distal phalanges are sharply bent downward, so that they form a more acute angle with the proximal phalanx

Question 2

most common etiology of digital deformities

Answer 2

biomechanical dysfunction

Question 3

cavus foot and toe deformity

Answer 3

need to rule out a neuromuscular condition

Question 4

anatomy review

Answer 4

Question 5

Stabilization of the lesser toes against the ground at the MTPJ’s provided mainly by …

Answer 5

FDL and FDB

Question 6

extensor sling vs. extensor wing

Answer 6

• Dorsiflexion at the lesser MTPJ’s is accomplished by the EDL through the extensor sling which supports the proximal aspect of the proximal phalanx.
• Dorsiflexion of the middle and distal phalanges is mediated through the extensor wing controlled primarily by the lumbricals.

Question 7

what holds the extensor tendons in place

Answer 7

• Held in place by 2 fibrous sheaths: Extensor hood
• Proximal part: Extensor sling: fibers encircle and attach to the plantar plate
• Interosseous muscles contribute to the sling
• Distal part: Extensor wing: Formed by expansions of the lumbricals

Question 8

long and short flexors are _____ phase muscles

Answer 8

stance

plantarflex and stabilize digits during stance phase of gait

flexors –> Plantarflexory force to the MTPJ (non-weight-bearing), but dorsiflex MTPJ in weight-bearing.

Question 9

lumbricales are a _____ phase muscle

interossei are a _______ phase muscle

Answer 9

swing

stance

Question 10

anatomy review

Answer 10

Question 11

how many interossei are there? what do they do?

Answer 11

seven

4 dorsal, 3 plantar

• Pass above the deep transverse metatarsal ligament but below the transverse axis of the MTPJ and insert into the base of the proximal phalanx.
• Stabilize in the transverse plane and plantarflex the MTPJ.
• Balances the reverse buckling effect of the flexors during stance phase of gait.

Question 12

how many lumbricals? what do they do?

Answer 12

four muscles arising from FDL tendons

• Course beneath the deep transverse intermetatarsal ligament.
• Insert medially into the base of the proximal phalanx and extensor hood
• Plantarflex and adduct the MTPJs and dorsiflex the IPJs
• Balance the effect of the long extensors and passive pull of the long flexors during swing phase of gait.

Question 13

static pathologic anatomy assoc with biomechanics

Answer 13

associated with HAV

confining shoegear

Question 14

3 dynamic pathologic anatomy digital deformities

Answer 14

flexor stabilization

flexor substitution

extensor substitution

Question 15

describe flexor stabilization etiology

Answer 15

• pronated foot
• late stance phase of gait
• FDL & FDB have gained mechanical advantage over the interossei muscles
• Often a adducto-varus rotation of the 5th digit: due to weakness of the quadratus plantae
• _Most common type*_

Question 16

how does flexor stabilization dynamic deformity lead to toe deformity?

Answer 16

• Flexibile pes valgus deformity with excessive STJ pronation
• Causes an unlocked/hypermobile MTJ: forefoot hypermobility

•Flexors fire earlier and longer to try to stabilize osseous structures (overpower the interosseous m)

•Ineffective at controlling the forefoot structures

Question 17

how is quadratus plantae weakness associated with flexor stabilization etiology?

Answer 17

• Excessive STJ pronation
• Forefoot abduction
• Changes the lateral vector force of the QP
• More medial pull by the FDL creates a adducto varus rotation of the 5th digit (maybe 4th as well)

Question 18

flexor stabilization etiology and peripheral neuropathy

Answer 18

–> loss of intrinsic power

Question 19

describe flexor substitution dynamic etiology toe deformity

Answer 19

• Supinated foot
• Late stance phase of gait
• Flexors have gained advantage over the interossei
• Straight contracture of all lesser toes
• Due to weak triceps surae
• Deep posterior + lateral leg muscles try to substitute
• Least common type

Question 20

how does the deep posterior muscle group contribute to flexor substitution dynamic etiology?

Answer 20

• Tibialis posterior: primary decelerator of pronation & supinator of the rearfoot
• Peroneus longus: plantarflexes 1st ray and causes STJ supination
• FHL & FDL also have axis of supination around the STJ
• Due to a weak tricep surae
• These muscles fire earlier and longer
• The deep flexors attempt to substitute for the weak triceps surae will not create heel lift
• Flexors overpower the interossei and cause hammertoe deformities
• High arched, late stance supinated foot with contracture of the toes results

Question 21

describe extensor substitution dynamic etiology toe deformity

Answer 21

• EDL gained advantage over the lumbricals
• Severe dorsal contracture at the lesser MTPJ is straight usually greater than 20 – 40 degrees
• Severe dorsal contraction seen during propulsion, swing and heel contact
• Excessive contracture at the MTPJ is also seen: Bowstringing

Question 22

bowstringing

Answer 22

excessive contracture at MTPJ

seen with extensor substitution etiology

Question 23

why have extensor substitution?

Answer 23

• Anterior pes cavus
• Ankle equinus
• Weakness of the lumbricals
• Biomechanical
• Neurologic
• Combination

Question 24

which etiology includes the hallux?

Answer 24

extensor substitution

Question 25

development timeline extensor substitution

Answer 25

• Usually begins as a flexible deformity
• Which may reduce completely during weightbearing
• Deformity become more rigid as contractures develop

Question 26

what is an anterior cavus and how does it develop hammertoes?

Answer 26

• Increase declination of the forefoot
• EDL has longer to travel: tendon does not lengthen but a passive pull is then place on the digits at the joints
• Increased retrograde force placed on the metatarsal heads increasing the anterior cavus deformity: vicious cycle

Question 27

how would ankle equinus contribute to hammertoes?

Answer 27

• TA, EDL, EHL fire earlier and longer to attempt dorsiflexion at the ankle to clear the foot
• Ineffective
• EDL then gains advantage over lumbricals

Question 28

what is the role of the EDL in extensor substitution etiology hammertoes?

Answer 28

• In order to dorsiflex the ankle: must move the MTPJ’s to their EROM before able to maximumly effect the ankle.
• Loss of the lumbricals in neuromuscular conditions-excessive dorsiflexion will occur.
• Severe digital deformity and subluxation.
• Hammered hallux.

Question 29

hammer vs. claw vs. mallet toe

Answer 29

Question 30

what is a mallet toe?

Answer 30

• Sagittal plane deformity
• Distal phalanx is flexed on the middle
• PIPJ and MTPJ not usually involved
• Associated with a long digit
• Presents as a flexion contracture at the DIPJ
• Callus at distal tip
• Limited extension at DIPJ
• May or may not be reducible
• Often seen with a long digit

Question 31

what is a clawtoe?

Answer 31

• Middle & distal phalanges are flexed on a dorsiflexed proximal phalanx
• Associated with cavus foot and neuromuscular disorders
• Dorsal contracture of the MTPJ and plantar contracture of the interphalangeal joints
• Plantar protrusion of the MTPJ is seen
• Mechanical hyperkeratosis
• Metatarsalgia
• Flexible or rigid