18. Orthopaedic Diseases of Young and Growing Dogs and Cats

Question 1

Pathophysiology of osteochondrosis / dissecans?

Answer 1

• Young (6-9Mo), rapidly growing, large breeds
• Epiphyseal cartilage necrosis -> Failure of endochondral ossification (may resume if vasculature can resuppy)
• Divots within subchondral bone, progressive chondromalacia
• Dissecans: flap, chondral or osteochondral fragment formation

=> ST, so not visualised radiographically

Question 2

List 5 common sites of OCD

Answer 2

• Caudal aspect of proximal humerus
• Distomedial aspect of humeral trochlea
• Lateral and medial femoralcondyles
• Femoral trochlea
• Lateral and medial talar ridges

Question 3

What is a kissing lesion?

Answer 3

• Subchondral defect that involves articular surface opposite primary (OCD) lesion

Question 4

Rx features of OCD?

Answer 4

• Flattening or concavity of affected subchondral bone
• Irregularity or widening of joint
• Sclerosis
• Joint effusion
• Capsular thickening
• Mineralised flap / joint mouse

=> may become vascularised / enlarge over time

Question 5

What causes the vacuum phenomenon in joints?

Answer 5

Traction -> accumulation of nitrogen gas.

=> Seen in shoulders with OCD

Question 6

What views of the talus may aid identification of lateral talar ridge OCD?

Answer 6

• Flexed dorsoplantar
• Dorsolateral - plantaromedial oblique

Question 7

What projections may aid in identification of shoulder OCD?

Answer 7

SUPINATED projections

Question 8

What normal structure may be mistaken for lateral femoral condyle OCD?

Answer 8

Extensor fossa - origin of long digital extensor

Question 9

Which contrast agents should be used for arthrographic evaluation of OCD?

Answer 9

• Non-ionic low osmolar -> Avoids dilution due to water-influx.

Question 10

List the 3 primary lesions (triad) involved in elbow dysplasia

Answer 10

• Ununited anconeal process
• Medial coronoid process fragmentation
• OCD of distomedialaspect of humeral trochlea

Question 11

Which 5 breeds have a seperate centre of ossification at the anconeal process?

Answer 11

• GSD
• Greyhounds
• Pit bull
• Lab
• G. Ret

Question 12

At what age should the anconeal process be fused?

Answer 12

150 days

Question 13

Which 4 breeds are at risk of UAP?

Answer 13

• Bernese
• Rotti
• Mastiffs
• St Bernards

*OTHER LARGE BREEDS*

Question 14

Which radiograph should be performed for suspected UAP?

Answer 14

Flexed lateral

Question 15

What is the most common developmental disorder involving canine elbow?

Answer 15

Fragmented MCP

Question 16

Clinical features of frag. MCP?

Answer 16

• Medium and large breeds
• >4-6months
• Rx:usually cannot visualise directly. Inferance from OA

Question 17

Which view can be used to highlight the medial coronoid process?

Answer 17

Cranial 25-deg lateral / caudomedial view

Question 18

Rx signs of Frag MCP?

Answer 18

• Abnormal countour / poor definition
• Medial margin blunted / rounded
• Seperate osseus body
• Joint incongruity / sublux
• Osteophytes (prox margin of anconeal process -> early sign)
• Subchondral bone sclerosis adjacent to trochlear notch / prox radioulnar articulation
• Large osteophyte from medial coronoid margin on CrCa

Question 19

Features of congenital radial head luxation?

Answer 19

• Breeds: Bouvier des flandres, Shi Tzy, bulldog, Afghan
• CAUDOLATERAL luxation
• Radial epiphysis may be convex (failure of normal ariticulation)

Question 20

Features of aseptic necrosis of the femoral head?

Answer 20

• Young small and toy breeds
• Path: Compromise blood supply - necrosis of subchondral bone, with ongoing cartilage growth. Decreased opacity of femoral head, misshapen.
• Rx: Time dependent

Early: Normal

Later: Linear lucencies in subchondral bone, decreased opacity of femoral epiphysis and metaphysis, flattening / irreg, joint space widening / sublux, PATH FRACT!

Question 21

Features of spontaneous capital physeal fracture of cats

Answer 21

• Non-traumatic, delayed physeal closure
• Males, early neutered, approx 2yo
• Rx:
  Malalignment of epiphysis and metaphysis

Head / neck osteolysis, sclerosis, resorption

CHECK BILATERALLY -> look for delayed closure

Question 22

What is the most common form of polymelia? Which animals / breeds?

Answer 22

• Supernumerary limbs / parts of limbs!

=> Polydactly most common! Cats, and Great Pyrenees

Question 23

Features of nutritional secondary hyperparathyroidism

Answer 23

• Calcium deficient or Ca:Phos imbalanced diets -> increased paraT

=> Bone resorption / osteomalacia

• Rx:
  Osteopaenia, thin cortices, loss of dental lamina, spinal deformity and FOLDING FRACTURES

Question 24

Features of osteogenesis imperfecta?

Answer 24

• RARE, generalised, multisystemic heritable disease

=> structural defect in TYPE 1 collagen

• CS: Stunted growth, muscle atrophy, weakness, pink teeth, PATHOLOGICAL FRACTURES!

Rx: osteopaenia, thin cortices, path fractures, excessively opaque callus, medullary sclerosis

**MAY BE CONFUSED WITH HYPERPARA**

Question 25

List 4 generalised bone disorders

Answer 25

• Nutritional secondary hyperparaT
• Osteogenesis imperfecta
• Panosteitis
• Osteopetrosis

Question 26

Features of panosteitis?

Answer 26

• Self limiting, young large breeds
• MALES 4x more likely
• Breeds: Bassett, GSD, shar pei, giant schnauzer, great pyrenees, mastiff
• 5-12 months, although GSDs as young as 2 mo and old as years!
• NOT INFLAMMATORY strictly
• DIAPHYSEAL, near nutrient foramen
• Rx:

Early: Blurring / accentuation of trabeculae; Nodular opacities within medulla similar to cortical bone -> Become more diffuse/ homogeneous

Smooth periosteal reaction (33-50% ish)

Late: Opacities resolve -> coarse thickened bone

• If not responding, consider follow up to rule out other abnormalities

Question 27

What lesion has been described that should not be confused with panosteitis?

Answer 27

• 46% ASYMPTOMATIC NEWFIES
• Metaphyseal lucencies with coarse trabecular bone in distal radius / ulna

Question 28

Features of osteopetrosis? Osteosclerosis?

Answer 28

• RARE inherited metabolic bone disease -> Abnormal osteoclasts
• Increased bone, specifically in medulla -> myelophthisic anaemia
• OSTEOSCLEROSIS: Rx identifcal -> can be seen with nonregen anaemia due to FeLV, possibly paraneoplastic too

Rx: Increased bone opacity, medullary cavities particularly.

Differs from panosteitis -> not large breed dogs, generalised / involvment of axial skeleton

Question 29

Features of congenital hypoT?

Answer 29

• Rare developmental condition -> Thyroid aplasia / hypoplasia
• Breeds: cats, boxers, deerhounds, g.schnau, affenpinschers, G.Danes
• DISPROPORTIONATE DWARFISM -> short limbed, bow legged, long necks and trunks

Rx: EPIPHYSEAL DYSPLASIA - reudced / delayed oss of epiphyses -> prox tib, humeral and fem condyles; cuboid bone oss. in carpus and tarsus delayed, Short vert bodies and skull.

Question 30

Features of mucopolysaccharidosis?

Answer 30

• Recessive, inherited -> Defect of glycosaminoglycan catabolism. Multiple types (10+)

=> Chronic, progressive, systemic disease -> MS, ocular, neuro, hepat, CV

• Often lame with visual deficits and disproportionate dwarfism / facial dysmorphia

=> Broad maxilla, widespread eyes, flat nose, short ears, distal joint laxity

Rx: AXIAL AND APPENDICULAR SKELELTON

• Epiphyseal dysplasia -> Delayed / incomplete epiphyseal ossification. Epiphyses smaller than normal, granular.
• Maxilla short and flattened
• Vert bodies cuboid and short
• Frontal sinuses small / absent
• DJD
• Coxofemoral sublux / lux if femoral head epiphysis affected

Question 31

List 3 examples of epiphyseal dysplasias?

Answer 31

• Congenital hypoT
• Mucopolysaccharoidosis
• Multiple Epiphyseal dysplasia of beagles

Question 32

Features of multiple epiphyseal dysplasia of beagles?

Answer 32

• Rare inherited disorder -> Failure of normal epiphyseal ossification
• Pseudoachondroplasia of miniature poodles thought to be similar

=> DELAYED GROWTH, never reach full size

Rx:

• Stippling / irregularity of epiphyses by 3 weeks old
• Most pronounced changes in humeral condyles at 1-3mo
• Also, femur, metacarlap and metatarsal bones, occasionally vertebrae
• EPIPHYSES EVENTUALLY MINERALISE, but deformed
• Hip dysplasia associated

Question 33

List 9 diseases promarily affecting the metaphysis and physis (4 are osteochondral dysplasias!!!)

Answer 33

Osteochondral dysplasias:

• Chondrodysplasia of alaskan malamutes
• Chondrodysplasia of Norwegian Elkhounds
• Osteochondrodysplasia of Scottish Fold Cats
• Ocular chondrodysplasia of Labs

Rickets

Hypertrophic osteodystrophy

Multiple Cartilagenous Exostosis

Retained cartilage core

Incomplete ossification of humeral condyle

Question 34

What are osteochondral dysplasias??

Answer 34

• MULTIPLE, complex. Only a few summarised in text

=> histologically and biochemically heterogeneous group

• Marked alternations in chondrocyte morphologic characteristcs and cartilage architecture
• Inherited, but variable expression => varying severity of CS
• Important to distinguish chondrodystrophoid dogs that have been bred, and sporadic chondrodysplastic dwarfs

Question 35

Features of chondrodysplasia of alaskan Malamutes?

Answer 35

• Autosomal recessive
• Accompanied by MACROCYTIC HAEMOLYTIC ANAEMIA
• CS: Limb shortening, cranial and lateral deviation of forelimbs and enlarged carpi
• Limited to long and cuboidal bones. SKULL AND SPINE SPARED
• Rx:

Most onbvious in sistal ulnar physis and metaphysis

Flaring of distal radial metaphysis

Angular limb deformities due to asynchronous antebrachial growth

• Changes as early as 7 days, more definitive at 5-12 weeks

Question 36

Features of chondrodysplasia of Norwegian Elkhounds?

Answer 36

• Autosomal recessive
• As with other forms of chondrodysp -> disproportionate dwarfism
• FRONT LIMBS > HINDLIMBS
• ALSO EFFECTS AXIAL SKELETON

Rx:

Similar long bone changes as per alaskan malamutes

=> forelimb curvature by 5 weeks

Spinal changes: Lipping and pleating of ventral vert body, delayed union of endplates

Costochondral junctions flared and cupped

Skull UNAFFECTED

Question 37

Features of osteochondrodysplasi of Scottish Folds?

Answer 37

• Simple autosomal dominant
• WITH FOLDING OF THE PINNA!
• CS: Short, difficulty supporting weight, gait abnormalities, thick tail base
• Rx: Evident by. 7weeks

Metaphyses of metatarsals / carpals distorted and physes widened

May effect phalanges too

Punctate lucenceis in carpal and tarsal bones

Caudal vert reduced in length

DJD -> Ankylosis of carpal or tarsal joints

Question 38

Features of Ocular chondrodysplasia of Labs?

Answer 38

• Autosomal recessive
• Typical skeletal changes + OCULAR MANIFESTATIONS: cataracts, retinal dysplasia, retinal detachment

Rx:

• Long bone shortening, specifically: Ulna and radius
• Delayed growth of anconeal and coronoid processes of ulna, and medial epicondyle of humerus
• Reduced cortical opacity / thickness
• Retained cartilage core (distal ulna)
• Flaring of ulnar metaphysis, widening of growth plate
• Asynchronous Ulna / Radial growth -> Radius Curvus
• Cuboidal bones and epiphyses misshapen and larger than normal
• Ribs wider than normal -> flaring at costochondral junction
• Hip dysplasia common
• SKULL AND SPINE SPARED

Question 39

What are the two different forms of hereditary rickets?

Answer 39

Type 1: deficiency of enzyme that converts to active form

Type 2: Anomaly of receptor in target organ

Question 40

Pathophys of Rickets?

Answer 40

• HYPOVITAMINOSIS D
• Inherited or nutritional deficiency

=> Carnivores derive from diet only (not in skin)

• Insufficient GI absorption of Ca and Phos
• Can lead to secondary hyperparaT as due to lack of Ca -> mobilisation from skeleton
• CS: Hypocalcaemia, alopecia, lameness (meyaphyseal thickening, bowing / angular limb)

Question 41

Rx features of rickets?

Answer 41

• Widening / flaring of physes
• Cuppining of adjacent epiphyses and metaphyses
• Flared osteochondral junctions of ribs => Rachitic rosary
• Diffuse osteopaenia, thin cortices
• FOLDING FRACTURES

Question 42

Pathophys of hypertrophic osteodystrophy?

Answer 42

• Large breeds, young (2-7mo)
• Boxers, G.Danes, Irish setters, Weimaraners…
• Unknown cause: oversupplementation minerals, hypovit C, supparative inflamm without infectious agent, distemper
• CS: pyrexia, d+, footpadd hyperkeratosis, leukocytosis, anaemia, pneumonia…
• Bilaterally symmetric bone lesions, typically distal radius / ulna/ tibia

=> may effect chostocondral junctions, metacarp/tars, CRANIOMANDIBULAR (?link with CMO)

• Usually self limiting, although -> possible premature physeal closure and deformity thereafter

Question 43

Rx hypertrophic osteodystrophy

Answer 43

• Double physis sign: lucent zone in metaphysis
• Sclerotic metaphyseal margin - collapse of trabecular bone
• Irregular periosteal new bone around metaphysis
• Soft tissue swelling
• Widening / concavity and increased opacity of distal rib ends

=> AGGRESSIVE, cannot distinuish from osteomyelitis. Consider follow up + cultures if not improving

Question 44

Features of multiple cartilagenous exostosis?

Answer 44

• Benign proliferative disease (although malig transformation reported)
• Thought to be hereditary
• ANY BONE THAT UNDERGOES ENDOCHONDRAL OSSIFICATION
• OFTEN MULTIPLE BONES
• Usually stop growing once mature, although in cats seems more progressive
• Rx:

Amorpohoous irreegular rib masses

Long bone / vertebral masses more organised

+- absence of cortical bone

Bone may be deformed

Question 45

Features of retained cartilage core?

Answer 45

• Distal ULNAR metaphyses of large dogs. Sometimes lateral femoral condyle
• Disruption of endochondral ossification with retention of hypertrophied cartilage

=> Angular limb, or seen in normal dogs

Rx:

Cone shaped radiolucency in distal ulnar metaphysis / lateral femoral condyle

Sclerosis around

Angular limb

DJD

Question 46

At what age should the humeral condylar ossification centres fuse?

Answer 46

84 days

Question 47

In IOHC, what is the incidence of Y/T fractures, lateral and medial condylar fracture?

Answer 47

Y/T: 50%

Lateral: 35%

Medial: 15%

Question 48

Pathophys of IOHC

Answer 48

• Spaniel breeds -> hertitable
• Males
• Condylar fractue with normal exercise
• Bilateral disease freq.
• Incomplete ossification -> fissure

Question 49

Rx IOHC

Answer 49

• Vertical line midcondylar region
• Craniocaudal or 15 deg oblique
• Smooth periosteal reaction at caudal and lateral aspect
• Path fracture

+- FRAGMENTED MEDIAL CORONOID !

Question 50

Features of flexor enthesopathy / medial epicondylitis

Answer 50

• enthesopathy of flexor tendons -. FLEXOR CARPI ULNARIS
• Close association with ulnar nerve
• CS: none, pain on pronation, chronic mild lameness
• Only evidence of inflammation in acute phase
• Seen +- elbow dysplasia

Rx:

Osseus body adjacent to medial jumeral epicondyle, spur of new bone extending caudally

DJD

+- Elbow dysplasia

Question 51

What is the prevalence of flexor enthesopathy as a primary disease and concomitantly with elbow dysplasia?

Answer 51

Primary: 6%

ED: 34%