Goldenstien Trauma List 5

Question 1

Stabilizers preventing posterolateral rotatory instability (3)

Answer 1

1. Lateral ulnar collateral ligament
2. Common extensor origin
3. Joint capsule

Question 2

Indications for surgical treatment of acute elbow dislocations (7)

Answer 2

1. Open injuries
2. Neurovascular injury
3. Irreducible dislocation
4. Incongruent reduction
5. Incarcerated bony fragments/soft tissue
6. Inability to maintain reduction in a safe position
7. To treat associated fractures

Question 3

Complications of elbow injuries in adults (4)

Answer 3

1. Neurovascular injury
2. Post-traumatic stiffness
3. Heterotopic ossification
4. Recurrent instability

Question 4

Risk factors for heterotopic ossification in elbow injuries (5)

Answer 4

1. Increasing severity of injury
2. Delayed reduction of dislocation
3. Forced passive motion
4. Associated head injury
5. Associated burns

Question 5

Classification of Monteggia fractures (4)

Answer 5

1. Type I: anterior (60%)
2. Type II: posterior (15%)
3. Type III: lateral
4. Type IV: with proximal radius fracture

Question 6

Causes of malreduction of the radial head in Monteggia fractures (3)’

Answer 6

1. Non-anatomic reduction of the ulna
2. Interposed annular ligament/capsule
3. Intraarticular osteochondral fragment

Question 7

Complications of Monteggia fractures (4)

Answer 7

1. PIN palsy
2. Redislocation/subluxation
3. Proximal radioulnar synostosis
4. Loss of ROM

Question 8

Indications for surgical treatment of forearm shaft fractures (4)

Answer 8

1. > 10° of angulation or > 50% shaft displacement
2. Open fractures
3. Both bones forearm fracture
4. Polytrauma

Question 9

Indications for acute bone grafting of forearm fractures (3)

Answer 9

1. Comminution involving > 1/3 of the diaphyseal cortex
2. Segmental bone loss
3. Severe open fractures with poor local biology

Question 10

Complications of forearm fractures (8)

Answer 10

1. Compartment syndrome
2. Nerve injury
3. Infection
4. Non-union
5. Malunion
6. Radioulnar synostosis
7. Refracture after hardware removal

Question 11

Risk factors for nonunion of forearm fractures

Answer 11

1. Open fracture
2. Comminution
3. Segmental fractures
4. Segmental bone loss
5. Inadequate fixation
6. Both bones fractures

Question 12

Risk factors for refracture after hardware removal (3)

Answer 12

1. Large plates
2. Removal before 18 months
3. No immobilization post-removal

Question 13

Risk factors for radioulnar synostosis after surgical treatment of forearm fractures (13)

Answer 13

1. Same level fracture of both bones
2. Proximal 1/3 fractures
3. Open fractures
4. High energy injury
5. Associated head injury
6. Associated burns
7. Delayed surgery
8. Single incision surgery
9. Insufficient stabilization
10. Faulty plate location
11. Screws projecting into the interosseous gap
12. Primary corticocancellous bone grafting (especially if in contact with interosseous membrane)
13. Cast immobilization post-osteosynthesis

(Injury, pre-op, operative, post-op)

Question 14

Poor prognostic factors for outcome after synostosis resection (4)

Answer 14

1. Proximal location
2. Large synostosis
3. Severity of the initial injury
4. Later timing of resection

Question 15

Radiographic signs of DRUJ instability in Galeazzi fractures (4)

Answer 15

Ulnar styloid fracture

Ulnar head dislocation on a true lateral XR

Widened DRUJ on PA XR

≥ 5 mm of radial shortening

Question 16

Classification of distal radius fractures (Frykman) (8)

Answer 16

1. Type I: extraarticular
2. Type II: type I with an ulnar styloid fracture
3. Type III: enters radiocarpal joint
4. Type IV: type III with an ulnar styloid fracture
5. Type V: enters radioulnar joint
6. Type VI: type V with an ulnar styloid fracture
7. Type VII: enters both radiocarpal and radioulnar joints
8. Type VIII: type VII with an ulnar styloid fracture

Question 17

Risk factors for distal radius fractures (5)

Answer 17

1. Decreased bone mineral density (femoral neck osteopenia/osteoporosis)
2. Female
3. Ethnicity (Caucasian)
4. Heredity (family history of osteoporosis)
5. Early menopause

Question 18

Distal radius fractures associated injuries (8)

Answer 18

1. Carpal fractures
2. Medial nerve injury
3. TFCC injury
4. Carpal ligament injury
5. Tendon injury
6. Open fracture
7. DRUJ injury

Question 19

Causes of median nerve injury with distal radius fractures (3)

Answer 19

1. Direct contusion
2. Mechanical deformation
3. Abnormally high pressures in the carpal tunnel

Question 20

Treatment of median nerve compression with distal radius fractures (4)

Answer 20

1. Elevation
2. Release of constricting bandages/casts
3. Closed/open reduction of deformity
4. Surgical decompression

Question 21

Indications for carpal tunnel release in distal radius fractures (3)

Answer 21

1. Symptoms don’t improve after closed reduction/dressing removal
2. Symptoms are progressive
3. Symptoms lasting longer than 6 hours

Question 22

Things to look for on radiographs of distal radius fractures (11)

Answer 22

PA

1. Radial shortening/comminution
2. Ulnar styloid fracture
3. Radial inclination
4. Lunate facet depression
5. Scapholunate dissociation
6. Gilula’s lines

Lateral

1. Volar tilt
2. Metaphyseal comminution
3. Volar cortex displacement
4. Scapholunate angle
5. Position of the DRUJ

Question 23

Indications of unstable distal radius fractures (8)

Answer 23

1. Older age
2. Both volar and dorsal metaphyseal comminution
3. Radial shortening > 5 mm
4. Articular depression > 2 mm
5. Dorsal tilt > 20°
6. Displaced articular margin fractures (Barton’s, Smith’s, Chauffeur’s)
7. Fractures that displace during cast immobilization
8. Loss of ≥ 5° of radial inclination

Question 24

Indications for surgical intervention for distal radius fractures (5)

Answer 24

1. Open fracture
2. Associated median nerve compromise
3. ≥ 2 mm articular step or gap
4. ≥ 5 mm radial shortening
5. ≥10° dorsal tilt

Question 25

Indications for ORIF for distal radius fractures

Answer 25

1. Articular margin fractures (Barton’s, Smith’s, Chauffeur’s)
2. Complex intraarticular fractures
3. Die-punch fractures
4. Polytrauma

Question 26

Options for surgical treatment of distal radius fractures (4)

Answer 26

1. Percutaneous interfocal pinning
2. Percutaneous intrafocal (Kapandji) pinning
3. External fixation
4. ORIF

Question 27

Advantages of volar vs. dorsal plating of distal radius fractures (4)

Answer 27

1. Large bone surface for plate application
2. Plate protected by pronator quadratus
3. Anatomic reduction of thick volar cortex gives significant stability
4. Lower risk of tendon rupture

Question 28

Complications of external fixation of distal radius fractures (9)

Answer 28

1. Superficial radial nerve injury
2. Extensor tendon injury
3. CRPS
4. Pin loosening
5. Pin tract infections
6. Pin breakage
7. Delayed union
8. Carpal tunnel syndrome (“cotton loder” position)
9. Finger stiffness

Question 29

Complications of distal radius fractures (7)

Answer 29

1. Malunion (#1)
2. Nonunion
3. Tendon irritation/rupture
4. CRPS
5. Carpal tunnel syndrome
6. Compartment syndrome
7. DRUJ instability

Question 30

Consequences of malunion of distal radius fractures

Answer 30

Extraarticular

1. DRUJ incongruity
2. Ulnocarpal impingement
3. Midcarpal instability

Intraarticular

1. Arthritis

Question 31

Consequences of radial shortening after distal radius fracture (5)

Answer 31

1. DRUJ pain
2. Ulnar impaction syndrome
3. Loss of grip strength
4. Loss of forearm rotation
5. Unsightly cosmetic deformity

Question 32

Consequences of dorsal angulation after distal radius fracture (5)

Answer 32

1. Loss of wrist flexion
2. Acquired DISI
3. Midcarpal instability
4. Dorsal subluxation of the carpus
5. Concentration and dorsal shift of radius contact loads (arthritis)

Question 33

Factors associated with a poor outcome following distal radius fracture (4)

Answer 33

1. Articular incongruity > 2 mm
2. Residual lunate facet depression
3. Residual dorsal tilt
4. Static DISI deformity (radiolunate angle > 25°)

Question 34

Classification of Smith’s fractures (Thomas) (3)

Answer 34

1. Type I: volar tilt but no translation (extraarticular)
2. Type II: intraarticular volar fracture with volar translation of the carpus or intraarticular dorsal fracture with dorsal translation of the carpus
3. Type III: volar translation but no tilt (extraarticular)

Question 35

Classification of scaphoid fractures (Herbert) (4)

Answer 35

Type A: stable acute fractures

1 – tubercle

2 – incomplete waist

Type B: unstable acute fractures

1 – distal oblique

2 – complete waist

3 – proximal pole

4 – transscaphoid perilunate #/dislocation

Type C: delayed union

Type D: established nonunion

1. Fibrous union
2. Pseudarthrosis

Question 36

Indications for surgical treatment of scaphoid fractures (8)

Answer 36

1. Displaced > 1 mm
2. Unstable
3. Proximal pole
4. Delayed diagnosis (> 4 weeks)
5. Delayed union
6. Patient preference
7. Associated perilunate ligamentous injury
8. DISI deformity

Question 37

Advantages of percutaneous reduction and fixation techniques for scaphoid fractures (4)

Answer 37

1. Preservation of blood supply
2. Maintenance of inherent ligamentous stability
3. Minimal iatrogenic soft tissue disruption
4. Earlier restoration of wrist motion

Question 38

Advantages of surgical stabilization over nonoperative treatment of undisplaced scaphoid fractures (5)

Answer 38

1. Improved healing rates
2. Accelerated functional recovery
3. Decreased morbidity from prolonged casting
4. Decreased time to bony union
5. Faster return to work

Question 39

Complications of scaphoid fractures (5)

Answer 39

1. Nonunion
2. Malunion
3. Post-traumatic arthritis
4. Avascular necrosis
5. Carpal instability

Question 40

Risk factors for nonunion of scaphoid fractures (4)

Answer 40

1. Smoking
2. Delay in diagnosis
3. Inadequate immobilization
4. Associated ligamentous injury