7. Biomechanics

Question 1

hallux interphalangeal angle:
normal range

Answer 1

normal is 0-10 degrees

Question 2

distal articular set angle (DASA):
normal range

Answer 2

normal: 7.5 degrees

Question 3

proximal articular set angle (PASA):
normal range

Answer 3

normal: 7.5 degrees

Question 4

Types of joint deformities

(hint: 3 types)

Answer 4

• Congruent – joint lines are parallel
• Deviated – joint lines intersect outside joint
• Subluxed – joint lines intersect inside joint

Question 5

3 types of bunion deformities

Answer 5

• Structural
• Positional
• Combined

Question 6

structural bunion deformities:

characteristics

Answer 6

• Bony deformity
• Abnormal PASA and DASA
• PASA + DASA = HA

Question 7

positional bunion deformities

characteristics

Answer 7

• Soft tissue deformity with subluxed or deviated joint
• Normal PASA and DASA
• PASA + DASA < HA

Question 8

combined bunion deformities:

characteristics

Answer 8

• Elements of both structural and positional with subluxed or deviated joint
• Abnormal PASA and DASA
• PASA + DASA < HA

Question 9

hallux abductus angle:

normal range

Answer 9

normal: 10-15 degrees

Question 10

true intermetatarsal (IM) angle:

normal range

Answer 10

Normal: 8-12°

Question 11

mild increase (10-13°) in IM angle:

type of procedure

Answer 11

Head procedure if mild 10-13°

Question 12

moderate increase (14-17°) in IM angle:

type of procedure

Answer 12

Shaft procedure if moderate 14-17°

Question 13

severe increase (18-21°) in IM angle:

type of procedure

Answer 13

Base procedure if severe 18-21°

Question 14

procedure for hypermobile 1st ray

Answer 14

Lapidus procedure if hypermobile 1st ray

(recall: involves fusing the joint between the first metatarsal bone and the medial cuneiform)

Question 15

metatarsus adductus angle:

normal range

Answer 15

normal: <20 degrees

(recall: bisect tarsus; distal MC, proximal MC, base of 4th Met, tip of CC joint)

Question 16

true IM angle:

calculation

Answer 16

True IM angle = (metatarsus adductus angle - 15) + IM angle

Question 17

1st Metatarsal protrusion distance:

normal range

Answer 17

Normal +/- 2 mm compared to the 2nd metatarsal

Question 18

tibial sesamoid position:

normal range

Answer 18

normal: 1-3
* (recall: tibial sesamoid in relation to line that bisects 1st metatarsal)*

Question 19

1st MPJ: normal ROM

Answer 19

• 65-75° dorsiflexion and
• 40° plantarflexion

Question 20

1st Metatarsal-medial cuneiform angle:

normal range

Answer 20

Normal: 22°

Question 21

1st ray:

normal ROM

Answer 21

• 5 mm dorsiflexion + 5 mm plantarflexion = 1 cm total ROM

Question 22

Engel’s angle:

normal range

Answer 22

Normal: <24 degrees

(recall: bisect intermediate cuneiform, bisect 2nd ray)

Question 23

Meary’s angle:

normal range

Answer 23

Normal: up to 15 degrees

(recall: angle b/w line drawn from the centers of longitudinal axes of talus and 1st metatarsal)

Question 24

1st MPJ condition:

how to determine, and the 3 types

Answer 24

• draw line parallel to articular surface of MT and base of PP
• types:
  
  1. congruous: lines are parallel and do not intersect
  2. deviated: lines intersect OUTSIDE joint
  3. subluxed: lines intersect WITHIN the joint

Question 25

1st MPJ joint space:

normal value

Answer 25

2 mm width, uniform

Question 26

1st and 2nd MT shaft comparison:

normal

Answer 26

should be parallel

(recall: look at shaft of 1st metatarsal and compare it to shaft of 2nd metatarsal)

Question 27

Seiberg index:

calculation

Answer 27

• distal – proximal = Seiberg’s index
  
  • Positive with dorsal angulation → elevatus
• (recall: perpendicular distance [mm] from the dorsal aspect of the 2nd met shaft to the dorsal aspect of the 1st met.*
• 2 points = one at the neck, and the other at 1.5 cm from the 1st met base)

Question 28

Fallat & Buckholz 4th IM angle

(aka 4-5 IM angle):

normal range

Answer 28

• Normal: 6°
• Pathologic: 8.7°

(recall: angle between bisection of 4th metatarsal and proximal-medial cortical border of 5th metatarsal)

Question 29

Fallat & Buckholz Lateral Deviation angle (lateral bowing):

normal range

Answer 29

• Normal 2.64°
• Pathologic >8°

(recall: Angle of line bisecting head and neck of 5th met and line adjacent to proximal-medial cortex)

Question 30

metatarsal length:

longest → shortest

Answer 30

Longest 2 > 3 > 5 > 4 > 1 shortest

Question 31

metatarsal protrusion:

longest → shortest

Answer 31

Longest 2 > 3 > 1 > 4 > 5 shortest

Question 32

lesser MPJ dorsiflexion/plantarflexion:

normal range

Answer 32

• 30-40° dorsiflexion, and
• 50-60° plantarflexion

Question 33

metatarsal declination angle:

normal range

Answer 33

normal: 21 degrees

Question 34

*metatarsal abductus angle:

normal range

Answer 34

normal: 0-15 degrees

Question 35

IM angle of 2nd and 5th metatarsals:

normal range

Answer 35

normal: 14-18 degrees

Question 36

IM angle of 1st and 2nd metatarsals:

normal range

Answer 36

Normal: < 9°

Pathologic >12°

Question 37

IM angle of 4th and 5th metatarsals:

normal and pathologic

Answer 37

• Normal 4-5°
• Pathologic >9°

(Schoenhause says normal 4th IMA is 8°)

Question 38

Splayfoot angles

Answer 38

1st IM angle >12° and 4th IM angle >8°

*With metatarsus primus adductus, there is a high predilection of splayfoot

Question 39

talar neck angle:

normal range at (a) birth and (b) adulthood

Answer 39

Long axis of head and neck with long axis of the body

• Birth: 130-140°
• Adult: 150-165°

Question 40

talar head and neck angle:

normal

Answer 40

• Plantarflexed: 25-30°
• Medially aligned 15° to body

(source: https://musculoskeletalkey.com/fractures-and-fracture-dislocations-of-the-talus/#s0110))

Question 41

talar torsion angle:

normal in (a) fetus, (b) childhood, (c) adult

Answer 41

Head is laterally rotated on the body

• Fetus: 18-20°
• Childhood: 30°
• Adult: 40°

Note: this motion brings the supinated foot in utero to a more pronated adult position

Question 42

talar declination angle:

normal, and effects of pronation and supination

Answer 42

Normal 21°

• Pronation – increases talar declination angle
• Supination – decreases

Question 43

Meary’s angle:

normal and pathologic

Answer 43

Intersection of longitudinal axis of talus and 1st metatarsal

• Normal 0°
• Increases with either pronation or supination
  
  • Pronation – moves axis of the talus plantar to 1st metatarsal
  • Supination – moves axis of the talus dorsal to 1st metatarsal

Question 44

Cyma line:

define, effects of pronation and supination

Answer 44

S-shaped line formed by the articulation of T-N and C-C joints

• Pronation – moves line anteriorly
• Supination – moves line posteriorly

Question 45

talonavicular joint:

normal, effects of pronation and supination

Answer 45

Normal: 75° coverage

• Pronation – decreases coverage
• Supination – increases coverage

Question 46

forefoot abductus angle:

normal

Answer 46

Normal 8° (0-15°)

Question 47

calcaneal inclination angle:

normal, effects of pronation & supination

Answer 47

Normal 21°

• Pronation – decreases
• Supination – increases

Question 48

Hibb angle (lateral view):

define, normal

Answer 48

Intersection of longitudinal axis of calcaneus and 1st metatarsal

• Normal: >150 degrees
• Pes cavus: less than 150 degrees

used to identify the apex of deformity in patients with pes cavus on lateral weight bearing radiograph

Question 49

fowler and philip angle:

define, normal, pathologic

Answer 49

Angle formed from the intersection of a line along the anterior tubercle and the plantar tuberosity and another line along the posterosuperior prominence at the Achilles tendon insertion

• Normal: <70°
• Haglund’s deformity: >75°

Question 50

total angle of Ruch (parallel pitch lines):

calculation, normal, abnormal

Answer 50

Fowler & Philip angle + calcaneal inclination angle

• Normal: 90°
• Haglunds deformity: >90°

Question 51

calcaneocuboid abduction angle:

normal, effect of pronation

Answer 51

• Normal: 0-5°
• Increases with pronation

Question 52

kite’s angle (talocalcaneal angle)- DP view

infant, adult, effects of pronation/supination

Answer 52

*helps determine hindfoot varus or valgus

• Infant: 30-50°
• Adult: 20-40°
  
  • Pronation – increases
  • Supination – decreases

Question 53

talocalcaneal angle - LATERAL view

normal

Answer 53

Normal: 25-50°

(does not change with age)

Question 54

Subtalar joint axis direction

Answer 54

STJ goes through 1st ray in neutral, 2nd ray in supination, and is medial to 1st ray in pronation

Question 55

STJ axis of motion

Answer 55

Lateral, posterior, plantar → medial, anterior, dorsal

• 48° from frontal plane
• 42° from transverse plane
• 16° from sagittal plane

Question 56

STJ ROM

Answer 56

From neutral:

• 2/3 motion in inversion (20°) and
• 1/3 in eversion (10°)

Question 57

longitudinal midtarsal joint ROM

Answer 57

• 75° from frontal plane
• 15° from transverse plane
• 9° from sagittal plane

Question 58

oblique midtarsal joint

Answer 58

• 38° from frontal plane
• 52° from transverse plane
• 57° from sagittal plane

Question 59

bohler angle:

define, normal, pathologic

Answer 59

Angle formed by the intersection of a line from the superior aspect of the anterior process to superior aspect of the posterior facet and another line from the superior aspect of the posterior facet to superior point of the calcaneal process

• Normal: 25-40°
• Decreases with intra-articular calcaneal fracture

Question 60

gissane angle:

define, normal, pathologic

Answer 60

Angle formed by the intersection of a line along the posterior facet and another line along the middle and anterior facets

• Normal: is 125-140°
• Increases with intra-articular calcaneal fracture

Question 61

toygers angle:

define, normal, pathologic

Answer 61

Line drawn down posterior skin surface on the radiograph where the Achilles tendon courses posteriorly as it approaches its insertion site on the calcaneus

• Normal should be a straight line (180°)
• Decreases with Achilles rupture

Question 62

ankle dorsiflexion/plantarflexion:

normal ROM

Answer 62

Normal:

• 10-20° dorsiflexion and
• 20-40° plantarflexion

Question 63

direction of ankle axis of motion

Answer 63

Lateral, posterior, plantar → medial, anterior, dorsal

Question 64

tibial torsion angles:

birth, 6 years, adult

Answer 64

• Birth: 0°
• 6 years: 13-18°
• Adult: 18-23°

Question 65

tibial varum/valgum:

birth, >2 years

Answer 65

Compare distal 1/3 of tibia to ground

• Birth: 5-10° varum
• >2 years: 2-3° valgum

Question 66

femur angle of inclination:

1 yr, 4 yrs, Adult

Answer 66

• 1 year: 146°
• 4 years: 137°
• Adult: 120-136° (avg 127°)

Question 67

femur angle of anteversion:

birth, adult

Answer 67

• Birth: 60°
• Adult: 10-12°

(Recall: Anteversion means “leaning forward.” Femoral anteversion is a condition in which the femoral neck leans forward with respect to the rest of the femur. This causes the leg to rotate internally, so that the knee and foot twist toward the midline of the body)

Question 68

angle of declination:

1 yr, 10 yrs, Adult

Answer 68

• 1 year: 39°
• 10 years: 24°
• Adult: 6°

(Recall: the angle formed by the femoral condyles plane (bicondylar plane) and a plane passing through the center of the neck and femoral head. It usually decreases with age)

Question 69

hip flexion/extension with knee extended:

normal ROM

Answer 69

• Normal flexion: 90-100°
• Normal extension: 10-20°

Question 70

Hip flexion with knee flexed:

normal ROM

Answer 70

Normal flexion 120-130°

Question 71

rotation of hip:

normal internal/external ROM

Answer 71

Adults: IR: 35-40, ER: 35-40

Children: IR: 20-25, ER: 45-40

Question 72

Hip abduction/adduction:

normal ROM

Answer 72

• Abduction: 24-60° (avg 36°)
• Adduction: <30°

Question 73

Knee flexion/extension:

normal ROM

Answer 73

Flexion: 130-150°

Extension: 5-10°

Question 74

knee rotation with knee flexed:

medial rotation ROM, lateral rotation ROM

Answer 74

• Medial rotation: 40°
• Lateral rotation: 40°

Question 75

Knee valgum/varus (bow leg, knock knee):

Answer 75

Question 76

ortolani test:

define

Answer 76

Test for congenital hip dislocation/dysplasia in newborns.

• With newborn supine and hip and knees flexed, the hips are adducted while pressing downward and abducted while lifting upward.
• +An unstable hip will dislocate when adducted and reduce when abducted.

Question 77

barlow test:

define

Answer 77

Test for a hip that is dislocatable but not dislocated in infants.

• With infant supine and hip and knees flexed, push posteriorly in line with the shaft of femur.
• +An unstable femoral head will dislocate posteriorly from acetabulum.

Question 78

Galeazzi (or Allis) sign:

define

Answer 78

Sign of unilateral congenital hip dislocation in infants.

• With infant supine and hip and knees flexed, the knees should be level.
• +If a knee is lower, that hip is dislocated.

Question 79

Trendelenberg test:

define

Answer 79

Test for weak hip abductors.

• As patient stands on affected limb, pelvis drops to opposite side.