19. Fracture Healing and Complications in Dogs

Question 1

List 5 types of bone

What types are found in 1) epiphysis and metaphysis 2) diaphysis?

Answer 1

Woven, Intramembranous, Long, Flat, Compact

1) Woven, cancellous and llamelar
2) Cortical (compact)

Question 2

Function of periosteum?

Answer 2

Protection and nutrition

Question 3

List the 3 types of bone cell

Answer 3

Osteoblasts

Osteocytes (develop from osteoblasts)

Osteoclasts

Question 4

Functions of:

1) PTH
2) Calcitonin
3) Vit D

Answer 4

1) PTH: in response to LOW Ca -> mobilisation from bone (stimulates osteoclasts)
2) Calcitonin: In response to HIGH Ca -> deposit in bone (inhibits osteoclasts, and GI / renal absorption)
3) Vit D: In response to low Ca -> Promotes Ca and Phos absorption from GI, increased mobilisation from bone

Question 5

What 3 methods does bone have to react to stiumulus?

Answer 5

1) Proliferation
2) Absorption
3) BOTH!

Question 6

By what methods does bone develop? WHICH BONES DO WHICH?

Answer 6

Intramembranous ossification:

• SKULL AND MANDIBLE
• Mesenchymal cell proliferation -> transform into matrix producing osteoblasts. Matrix calcifies.
• Fibrovascular layer on internal and external surfaces provide nutrition and osteogenic cells

Endochondral ossification:

• LONG BONES predominantly (but some intramembranous)
• Formation of cartilage model replaced by bone

BOTH:

• EXTREMITIES, SPINE, PELVIS
• E.g. tubular bones = primary centre of ossification in middle, growth by intramembranous, then secondary ossification centres develop in apophyses / epiphyses. Further growth from these centres by endochondral.

=> can do both in some instances

Question 7

What are the 5 histo zones of the physis? Where is the weakest zone?

Answer 7

1) Resting zone (immature cells on epiphyseal side of physis)
2) Proliferation / cell growth
3) Maturation
4) Degeneration
5) Provisional calcification

=> WEAK AT HYPERTROPHIED LAYER (maturation / degen / provisional calcification)

Question 8

What are the 4 major elecments of fracture repair?

Answer 8

1) Mechanical environment
2) Osteoconductive scaffolds
3) Osteogenic cells
4) Growth factores

Question 9

Describe the two main methods of bone healing

Answer 9

1) Direct bone healing
- Requires EXCELLENT REDUCTION AND ALIGNMENT and RIGID FIXATION
- Gap < 300microm
- No cartilagenous stage
- Gap filled with fibrous bone, remodelling and reconstruction of haversian system across fracture
2) Indirect bone healing
- MOST COMMON
- CALLUS due to lack of rigid fixation
- Intramembranous and endochondral
- Haematoma -> Fibrous tissue -> fibrocartilage -> endochondral ossification: woven bone (callus) -> compact bone

=> presence of inflamation is key difference from embryonic bone formation

Question 10

How much stress can the three different tissues associated with bone healing tolerate? What is the progression of tissue types during type 2 healing?

Answer 10

• KEY: MORE FLEXIBLE INITIALLY, BECOMING MORE RIGID

Haematoma -> Fibrous tissue -> fibrocartilage -> endochondral ossification: woven bone (callus) -> compact bone

Granulation tissue -> tolerate 100% deformation

Fibrous tissue -> 10% deformation

Bone -> 2% deformation

Question 11

What type of bone is produced by distraction osteogenesis?

Answer 11

• Parallel columns of LAMELLAR BONE

Question 12

List 12 factors affecting fracture healing

Answer 12

• Patient age / weight
• Reduction
• Type of fracture
• Bone involved
• Quality of reduction
• Stability
• Blood supply
• Infection
• Systemic disease
• Iatrogenic factors
• Pathological fracture
• Drugs (CS or NSAIDS)

Question 13

What % of bone fragment ends should be in contact to expect healing?

Answer 13

>50%

Question 14

What is the most common cause of poor fracture healing?

Answer 14

• INSTABILITY

Question 15

What is the proposed benefit of minimally invasive fracture repair techniques?

Answer 15

• Preserve soft tissue environement -> Viability essential to fracture healing

Question 16

Small breed dogs may have delayed healing of bones in which region compared to large breeds?

Answer 16

• Antebrachial

=> ALSO HIGHER COMPLICATION RATE

Question 17

List 4 systemic comorbidities that may delay fracture healing

Answer 17

• HypoT
• HyperparaT
• DM
• Paraneoplastic syndromes

Question 18

What is the incidence of nonunion fracture in cats and dogs?

Answer 18

• Cats: 0.85-4.3%
• Dogs: 0-6% (av 3.4%)

Question 19

Fracture repair delay of what duration is associated with poorer functional outcome?

Answer 19

>48hrs

Question 20

Increased radiopharmaceutical uptake in fractures is associated with what process?

Answer 20

• Osteoblastic activity

=> SENS not spec

Question 21

What is MRI useful in evalulation of fractures?

Answer 21

• Better than rx: evaluation of physeal inury / closure
• Evaluation of changes to marrow -> aid identification of bone lesions
• Soft tissues…

Question 22

SALTER HARRIS!

Answer 22

Question 23

How are long and short oblique fractures designated?

Answer 23

• Transverse = 90 deg to long axis
• Short oblique = >45
• Long oblique = <45

Question 24

What is a greenstick fracture?

Answer 24

• Incomplete fracture of only one cortex, and concurrent bending of opposite cortex (plastic deformation)

Question 25

How is a comminuted fracture defined?

Answer 25

• 3+ fragments, communication of fracture lines

=> large triangular fragment when 3 -> BUTTERFLY fragment

=> Severe if >5 fragments

Question 26

Classification system for open fractures?

Answer 26

Type 1) Small puncture wound <1cm caused by 1 fragment

Type 2) Variable sized wound, more ST damage

Type 3) Severe fragmentation, extensive ST injury +- skin loss

3a) No recon
3b) Recon required
3c) Amputation or near amputation of limb

Question 27

What feature of chip fractures helps distinguish them from e.g. dystophic mineralisation or ossificaiton centres?

Answer 27

• Presence of fracture bed

Question 28

What is the definition of slab fracture? Which bones are commonly affected?

Answer 28

• TYPICALLY CUBOIDAL
• Fractures that run from one joint surface to another

=> if only one joint surface = chip

Question 29

Definition of segmental fracture?

Answer 29

• Multiple fracture lines that DO NOT communicate (cf. comminuted)

Question 30

Definition of condylar fracture?

Answer 30

• Fracture of condyle away from parent bone

=> ALSO CAN HAVE BICONDYLAR, SUPRACONDYLAR, T and Y

Question 31

Definition of abrasion / shearing fracture?

Answer 31

• Often due to friction / glancing trauma -> e.g. asphalt

=> loss of soft tissue and bone, OPEN and commonly involve joint

Question 32

What are the ABCDS of orthopaedic imaging?

Answer 32

Alignment

Bone

Cartilage (= joints)

Device

Soft tissue

Question 33

What can result in excessive callus formation / periosteal reaction x3?

Answer 33

• Movement
• Infection
• Periosteal injury

Question 34

DDx for periimplant lucency

Answer 34

• Loosening
• Infection
• Bone necrosis (high speed drill)
• Artefact

Question 35

What features are typically identified with implant associated infection?

Answer 35

• Irregular lucency with ill-defined margins

=> NOTE: If even and sclerotic margins, less likely infectious!

Question 36

What radiographic criterion is most commoly used to demonstrate fracture healing?

Answer 36

• Callus bridging the fracture site

Question 37

How do different stabilisation methods relate to callus formation?

Answer 37

• MORE callus with casts
• ESF < casts
• Primary: Minimal

Question 38

How quickly should post op emphysema take to resolve?

Answer 38

7-10 days

Question 39

4 DDx for ST mineralisation around fracture site

Answer 39

• Fragment
• Bone graft
• Dystrophic (associated with injury)
• Mineralised haematoma

Question 40

List 6 classes of malunion

Answer 40

• Valgus vs varus
• Antecurvatum vs recurvatum
• Torsional
• Translational

Question 41

What degree of torsional malunion is poorly visualised on rx?

Answer 41

<10 deg

Question 42

Difference between delayed and non union?

Answer 42

• Delayed: Taking longer than should, but progressive and will eventually heal
• Non-union: Not healed, and no evidence of progression

=> ALL GO THROUGH DELAYED UNION PHASE

Question 43

What is a pseudoarthrosis? How is it different from a fibrous union?

Answer 43

• Chronic motion at fracture site -> fibrocartlage fills gap. May have good use / no pain

Fibrous union = stabilized by fibrous tissue. Radiolucent gap or line may remain, COMMON IN EQUINE DISTAL PHALANX

Question 44

Classifications of Nonunion fractures?

Answer 44

VIABLE (reactive / vascular) x 3 = Reactive bone and callus

- Hypertrophic:

ABUNDANT CALLUS, movement / overexercise / loosening.

- Moderately hypertrophic:

LESS CALLUS THAN HYPERTROPHIC

- Oligotrophic:

LITTLE OR NO CALLUS, difficult to distinguish from nonviable. Scinti. Or if any bone activity at fragment ends

NON-VIABLE x 4 =uncommon, lack of blood supply

- Dystrophic:

Radiolucent fracture gap, no callus and rounded sclerotic ends

- Necrotic

Sequestrum formation. Fragment with sharp edges and sclerotic

- Defect

Large fracture gap too large to bridge

- Atrophic

Progression of other type -> resorption, rounding of ends and osteoporosis.

Question 45

Anatomy of a sequestrum!

Answer 45

• Sequestrum: Sharply marginated sclerotic fragment
• Involucrum: Radiolucent halo, with sclerotic margin
• Cloaca: Draining tract

NOTE MAY BE STERILE OR INFECTIOUS

Question 46

Angular limb deformity in the dog most commonly occurs from premature closure of which physis? What features are classically seen with angular limb deformity secondary to this issue?

Answer 46

• Distal ulnar physis

=> conical shape may amplify force

=> Lack of synchronous growth = SHORT ULNA SYNDROME:

CRANIAL BOWING OF RADIUS

DISTAL SUBLUX OF ULNA FROM HUMERUS

SUBLUX ULNAR CARPAL JOINT

VALGUS ANGULATION OF MANUS

Question 47

Features of premature distal radial physis closure?

Answer 47

• Humeroradial sublux
• Humeroulnar sublux
• Antebrachiocarpal sublux

+- Manus deflection (less severe than ulna)

Question 48

Box

Answer 48