Small animal MSK disease

Question 1

Which breed of dog is predisposed to elbow dysplasia?

Answer 1

Labrador retriever

Question 2

Which breed of dog is predisposed to cruciate disease?

Answer 2

West Highland White terrier

Question 3

What conditions are more likely where there is chronic and progressive onset of lameness?

Answer 3

• Osteoarthritis

- Degenerative cruciate disease

Question 4

What conditions are more likely with acute onset of lameness?

Answer 4

• Trauma
• Infection
• Foreign body

Question 5

What conditions may present with acute worsening of a chronic lameness?

Answer 5

• Cruciate rupture on patellar subluxation

- Pathological fracture resulting from bone neoplasia

Question 6

Outline the importance of activity in the history for a lameness examination of cat or dog

Answer 6

• Exercise tolerance and general activity important in cat, rarely show true lameness
• Ability to jump in cats
• Reluctance to negotiate stairs may indicate HL problem

Question 7

Describe the common clinical course for panosteitis

Answer 7

Waxing and waning, shifting between different bones affected

Question 8

Describe the common clinical course of a cruciate rupture

Answer 8

Acute lameness followed by slow improvement

Question 9

Describe the common clinical course for patellar subluxation or superficial digital flexor tendon instability

Answer 9

Acute and intermittent signs, lame when slips out of position then sound when back into position

Question 10

Describe the typical clinical presentation of foot pathology

Answer 10

Worse on harder surfaces

Question 11

List the aspects of the examination of a small animal presented with lameness

Answer 11

• Observation in consulting room
• Dogs walked outside
• Full clinical examination
• Lameness examination
• Neurological examination

Question 12

Describe the appearance of paws in a fully weight bearing vs not fully weight bearing

Answer 12

• Fully: paw spread

- Not fully weight bearing: paw slightly clenched

Question 13

What may cause an inability to fix the stifle and how will this present clinically?

Answer 13

• Damage to quads due to patellar fracture,
  rupture of patellar tendon, femoral nerve injury
• Stifle will drop as put weight on limb
• Stifle will flex

Question 14

Describe a head nod in the assessment of lameness in the dog

Answer 14

Head nod on unaffected limb when walked as take more weight on normal leg, only used for forelimb

Question 15

Describe the hip movement assessment in the identification of lameness in the dog

Answer 15

Used for hindlimbs, hip will rise higher and quicker on affected leg

Question 16

What may indicate subtle neurological deficits when walking a dog for the assessment of lameness?

Answer 16

• Catching nails (may hear this)

- turning in tight circles exaggerates the deficits

Question 17

What may be indicated by respiratory deficits in a lameness work up in small animals?

Answer 17

• Pulmonary osteopathy

- Metastatic disease from osteosarcoma

Question 18

What may be indicated by urinary tract disease for a lameness work up in small animals?

Answer 18

• Association with lumbosacral discospondylitis and resulting lameness
• May be extension of urinary disease or prostatic disease

Question 19

Explain the examination for prostatic disease in a lameness work up and describe how this may present in small animals

Answer 19

• E.g. prostatic carcinoma that may have metastatic spread to long bones
• May also have strang/dysuria, haematuria

Question 20

Describe the appearance of neurogenic muscular atrophy

Answer 20

• Marked, very rapid

- Follows pattern of innervation i.e. sciatic affects biceps femoris

Question 21

Describe the examination of the feet and pads in a lameness work up in small animals

Answer 21

• Palpate digits and pads individually
• Twist each nail - blood or pain on twisting indicates nail injury
• Any wear to nails may indicates dragging and in HL may suggest CDRM in GSD, lumbosacral disease, IVDD
• Examine nail beds - common site of pulmonary adenocarcinoma metastasis in cats

Question 22

Describe the examination of joints in a lameness work up in small animals

Answer 22

• Plapate for effusions (esp. stifle)
• Pain
• Medial buttress to stifle indicates problem
• Unsharp margins on patellar tendon indicates effusion
• Instability e.g. in the cruciate using specific tests e.g. cranial drawer
• Abnormal movement e.g. intertarsal subluxatoin, carpal hyperextension shown by palmar/plantar stance

Question 23

Describe the examination of ligaments and tendons in a lameness work up in small animals

Answer 23

• Palpate for swelling
• Heat
• Pain
• Resulting instability if ruptured e.g. patellar higher than expected
• May be unstable in their grooves

Question 24

Outline the assessment of patellar instability in a lameness work up in small animals

Answer 24

• May subluxate medially or laterally

- Often need to flex and extend stifle joint with pressure on patella to bring about subluxation

Question 25

What tests are used to assess for cruciate rupture in small animals?

Answer 25

• Cranial drawer

- Tibial thrust

Question 26

Describe the examination of bones in a lameness work up in small animals

Answer 26

• Palpate as well as radiograph
• Squeeze: in panosteitis will resent this
• Pain on gentle palpation may indicate neoplasia
• Perform towards end of ecamination

Question 27

Describe the neurological aspects assessed in the lameness work up of a small animal

Answer 27

• Neck or thoracolumbar pain assessment
• Palpate axillary region for mass e.g. nerve root tumour
• Rectal examination if HL neurological deficits seen (palpate abnormalities in sacrum or rectal canal(
• Check anal and rectal tone

Question 28

Outline the use of radiography in the lameness work up of a small animal

Answer 28

• Mainstay of further investigation
• Good quality orthogonal views required
• Examine for primary and secondary disease

Question 29

Outline the use of synoviocentesis in the lameness work up of a small animal

Answer 29

• Single joint if only this joint is swollen, suspicion of OA or septic arthritis
• Multiple if polyarthritis suspected (worth tapping 2/3)
• Examine in house with DiffQuik and send off

Question 30

Outline the use of blood tests in the lameness work up of a small animal

Answer 30

• Rheumatoid Factor (RF) for rheumatoid arthritis
• ANA for SLE (may be indicated by leukopaenia, pain in muscles)
• Borrelia burgdorferi serology or PCR of joint fluid

Question 31

Outline the use of CT in the lameness work up of small animals

Answer 31

• Useful for elbows as will clearly demonstrate FCP and humeral intercondylar fissure (common in Springers)
• Also to visualise mineralisation of infra and supraspinatus tendons

Question 32

Outline the use or MRI in the lameness work up of small animals

Answer 32

• Better for soft tissues, good for stifles, shoulders and detection of foreign bodies
• Also good for spine to examine for nerve root tumours, lumbosacral disease etc.

Question 33

Outline the use of ultrasound in the lameness work up of small animals

Answer 33

Used occasionally e.g. bicipital tendon, Achilles and flexor tendons

Question 34

Outline the use of arthroscopy in the lameness work up of small animals

Answer 34

• Good for shoulder, elbow, stifle
• Difficult for carpus and talocrural joint
• Can be diagnostic and used to treat e.g. fragmented coronoid process
• Difficult, equipment expensive

Question 35

What additional tests may be used in the lameness work up of small animals?

Answer 35

• Biopsy (any mass or swellings)
• Nerve conduction studies
• EMG
• Muscle biopsy (e.g. for Labrador Retriever myopathy)

Question 36

How would you approach a case of a lame small animal where nothing is found on diagnostic testing?

Answer 36

• Treat with NSAIDs and rest and re-evaluate in 2 weeks, or 2 days if very lame
• Call owner midway through period of waiting for next appointment and enquire after pet
• Offer referral early

Question 37

Describe the method for the cranial drawer test in small animals

Answer 37

• Lying or standing (lying easier), sedated/GA or conscious (sed/GA better)
• Index finger on patella, thumb on sesamoid behind stifle
• Left index finger on tibial crest, thumb on head of fibula
• Right hand holds stable, while apply pressure on fibula
• Perform in various degrees of flexion and extension
• If abnormal, tibia will move cranially

Question 38

Describe the method for the tibial thrust test in small animals

Answer 38

• Easier if joint is painful
• Require practice and occasionally sedation or GA
• Hold femur with right hand, place index finger on patella
• Flex hock and tibia will move forward spontaneously

Question 39

What conditions would the following history be indicative of?
Stiffness, particularly in the mornings, lameness worsens after exercise, and waxes and wanes, lame limb swaps between legs

Answer 39

• Osteoarthritis
• Hip dysplasia
• Immune mediated polyarthritis
• Septic arthritis
• Perthes disease if hips

Question 40

Describe the signs you would expect to find on clinical examination of a dog with arthritis

Answer 40

• Lameness
• Pain on manipulation of joints
• Associated muscle atrophy
• No neurological deficits
• +/- systemic signs depending underlying cause

Question 41

What is rheuamtoid arthritis?

Answer 41

Immune mediated erosive arthritis, leading to changes in subchondral bone

Question 42

What is the difference between primary and degenerative arthritis?

Answer 42

• Primary has no underlying aetiology

- Degenerative is as a result of abnormal loading e.g. as a result of hip dysplasia

Question 43

Following a provisional diagnosis of osteoarthritis, what is an appropriate approach?

Answer 43

Trial therapy of rest and analgesia (NSAIDs) for 1-2 weeks

Question 44

List the tests used in order to form a definitive diagnosis of osteoarthritis

Answer 44

• Further manipulation fo joints under sedation or GA e.g. Ortolani sign
• Radiography
  Ultrasound
• EMG, CT, MRI, scintigraphy possible
• Arthrocentesis
• Arthroscopy
• Exploratory arthrotomy
• Intra-articular or regional blocks

Question 45

Evaluate the use of intra-articular or regional blocks for the diagnosis of osteoarthritis

Answer 45

• Need sedation
• rarely performed in small animals
• Never quite show normal movement expected, so cannot tell how much abnormal movement is from sedation or due to joint pathology

Question 46

What radiographic views are required for the diagnosis of osteoarthritis?

Answer 46

• Depends on joint affected
• Always require standard orthogonal views +/- stressed views
• Radiograph opposite side for comparison

Question 47

What is the first sign that is likely to be seen on radiography that indicates joint disease?

Answer 47

Effusion, demonstrated by increased opactiy within the joint and smaller fat pad (lucent triangle)

Question 48

Discuss the use of ultrasound in the diagnosis of osteoarthritis

Answer 48

• Good for peri-articular soft tissue structures, e.g. bicipital tendon
• Can be used for detection of meniscal tears
• Requires skilled operator

Question 49

What is the most likely underlying aetiology if only one joint is arthritic?

Answer 49

Septic or traumatic

Question 50

Outline the use of arthrocentesis in the diagnosis of arthritis

Answer 50

• Single or multiple tapped depending on presentation
• Collection in to plain, EDTA and blood culture medium if likely to be infected
• Smears for cytology as well as count from EDTA sample

Question 51

What is the normal result for a mucin test of synovial fluid?

Answer 51

Add joint fluid to acetic acid, and forms tight clot

Question 52

What is the demonstration of foamy macrophages in synovial fluid indicative of?

Answer 52

Degenerative disease

Question 53

What would large numbers of neutrophils in synovial fluid be indicative of?

Answer 53

Sepsis and polyarthritis/autoimmune

Question 54

Compare the colour of synovial fluid found in normal joints, DJD, immune mediated arthritis, and bacterial infective arthritis

Answer 54

• Normal: clear/pale yellow
• DJD: yellow
• Immune mediated arthritis: yellow (+/- blood tinged)
• Bacterial infective arthritis: yellow (+/- blood tinged_

Question 55

Compare the clarity of synovial fluid found in normal joints, DJD, immune mediated arthritis, and bacterial infective arthritis

Answer 55

• Normal: transparent
• DJD: transparent
• IMPA: transparent or opaque
• Bacterial Infective arthritis: opaque

Question 56

Compare the viscosity of synovial fluid found in normal joints, DJD, immune mediated arthritis, and bacterial infective arthritis

Answer 56

• Normal: very high
• DJD: high
• IMPA: low/ery low
• Bacterial: very low

Question 57

Compare the mucing clot synovial fluid found in normal joints, DJD, immune mediated arthritis, and bacterial infective arthritis

Answer 57

• Normal: good
• DJD: good - fair
• IMPA: fair - poor
• Bacterial: poor

Question 58

Compare the formation of spontaneous clots of synovial fluid found in normal joints, DJD, immune mediated arthritis, and bacterial infective arthritis

Answer 58

• Normal: no
• DJD: +/-
• IMPA: often
• Bacterial: often

Question 59

Compare the protein content of synovial fluid found in normal joints, DJD, immune mediated arthritis, and bacterial infective arthritis

Answer 59

given in g/dL

• Normal: 2-2.5
• DJD: 2-3
• IMPA: 2.5-3
• Bacterial: >4

Question 60

Compare the white cell content of synovial fluid found in normal joints, DJD, immune mediated arthritis, and bacterial infective arthritis

Answer 60

given in x10^9/L

• Normal: <2
• DJD: 2-5
• IMPA: 4-370
• Bacterial: 40-267

Question 61

Compare the neutrophil content of synovial fluid found in normal joints, DJD, immune mediated arthritis, and bacterial infective arthritis

Answer 61

given as %

• Normal: <5%
• DJD: <10%
• IMPA: 10-95%
• Bacterial: >90%

Question 62

Compare the mononuclear cell content of synovial fluid found in normal joints, DJD, immune mediated arthritis, and bacterial infective arthritis

Answer 62

given as %

• Normal: >95%
• DJD: >90%
• IMPA: 5-90%
• Bacterial: <10%

Question 63

Compare the glucose content of synovial fluid found in normal joints, DJD, immune mediated arthritis, and bacterial infective arthritis

Answer 63

given as % of serum value

• Normal: >90
• DJD: N/A
• IMPA: N/A
• Bacterial: <50

Question 64

Outline the use of advanced imaging in the diagnosis of arthritis

Answer 64

• CT and MRI

- May demonstrate bony changes, as well as underlying aetiology e..g elbowhip dysplasia

Question 65

Outline the use of arthroscopy in the diagnosis of arthritis

Answer 65

• Reduced joint morbidity with this method
• Magnified image
• May be therapeutic as well as diagnostic depending on aetiology

Question 66

Outline the use of arthrotomy in the diagnosis of arthritis

Answer 66

• Visualisation of joint

- Can take synovial biopsy is unsure of nature of arthritic/inflammatory change in joint

Question 67

What is the major disadvantage of arthrotomy for the diagnosis of arthritis?

Answer 67

Increases morbidity of joint (but often performed anyway)

Question 68

Outline the pathophysiology of osteoarthritis

Answer 68

• Fibrillation of articular cartilage of weigh bearing areas leads to fissuring and ulceration
• Microfracture leads to stiffening of subchondral bone and therefore abnormal loading
• Abnormal loading then leads to joint remodelling

Question 69

What causes the pain associated with osteoarthritis?

Answer 69

Synovitis and exposure of the subchondral bone

Question 70

Describe the radiographic signs seen with osteoarthritis

Answer 70

• Joint effusion
• Osteophyte formation and bone remodelling
• Enthesiophytes
• Subchondral sclerosis
• Subchondral cysts (more common on CT)
• Muscle atrophy

Question 71

Describe the cycle of presentation of osteoarthritis in young animals

Answer 71

• Primary disease leads to pain/instability, OA initiated leading to pain, lameness and restriction of movement
• Muscular growth provides support and stabilises joint, limiting signs
• Periarticular fibrosis occurs to increase stability
• Initially painful, improves, then as ages arthritis will become more severe

Question 72

In which joints is osteoarthritis more significant?

Answer 72

Small, tight joints e.g. tarsus or elbow, vs. large “padded” joints e.g. stifle or hip, and worse in high mothion joints e.g. antebrachiocarpal joint vs carpometacarpal

Question 73

What are enthesiophytes?

Answer 73

Bony extensions into surrounding ligaments and tendons around a joint, are associated with severe arthritic change

Question 74

What are the 3 key treatment objectives for osteoarthritis?

Answer 74

• Control pain
• Achieve acceptable level of exercise
• Limit progression of the disease

Question 75

Outline the general points included in a treatment plan for osteoarthritis

Answer 75

• Weight control
• Exercise modification +/- physio/hydro
• Analgesia e.g. NSAIDs
• Nutraceuticals
• Salvage procedures in severe cases

Question 76

Outline how flare ups of osteoarthritis may be managed

Answer 76

• Initial analgesia 7-10days of NSAIDs
• Rest, only 5min walks 3x/day on lead to maintain movement
• gradual reintroduction of exercise over 2-3 week period
• Physio/hydro to maintain muscle bulk and aid stability of joint

Question 77

Outline the pharmaceutical management of osteoarthritis

Answer 77

• NSAIDs mainstay
• Corticosteroids for severe, non-responsive or end-stage cases
• Gradually taper doses
• May be life-long treatment, monitoring required
• May add nutraceuticals

Question 78

Discuss the use of nutraceuticals in the management of osteoarthritis

Answer 78

• Evidence lacking
• 6 weeks before any beneficial effects
• Chondroitin sulphate and glucosamine
• Glucosamine has mild anti-iflamm as well as effect on chondrocyte metabolism
• Essential fatty acids may be beneficial
• Also turmeric and green-lip mussel

Question 79

List some additional research developments that have been suggested for the treatment of osteoarthritis

Answer 79

• Micropicking
• Joint resurfacign
• Platelet rich plasma
• Stem cell therapy
• Gene therapy

Question 80

Outline micropicking in the treatment of osteoarthritis

Answer 80

• Perforation of subchondral bone plate to allow cartilage to heal over it
• Unclear if beneficial

Question 81

Outline joint resurfacing in the treatment of osteoarthritis

Answer 81

• Full thickness defects
• Fibrin plus and other biodegradabl scaffolds
• Replace fragmented coronoid process, or fragmented surface of humerus
• Specialist and expensive

Question 82

Outline the use of platelet rich plasma in the treatment of osteoarthritis

Answer 82

• Variable results

- Take blood, concentrate platelets and re-inject back in to patient’s joint

Question 83

Outline stem cell therapy in the treatment of osteoarthritis

Answer 83

Harvest adipocytes and remove stem cells, grow on and inject into joint

Question 84

List the salvage procedures that may be used in the management of osteoarthritis

Answer 84

• Removal of articular surfaces
• Total joint replacement
• Fusion of joint (arthrodesis)

Question 85

Outline the diagnosis of feline osteoarthritis

Answer 85

• More difficult to detect, very vague signs, less inflammation vs. dog
• Less jumping, depressed demeanour, reduced ability to groom
• Rarely see overt lameness, but may do esp. elbow
• Trial meloxicam and assess response

Question 86

Discuss the features that predispose to ligament sprain and rupture

Answer 86

• Longitudinally orientated bundles of collagen fibre with greatest strength during tension
• Very inelastic - >10% elongation leads to permanent damage
• Cannot replace or repair ligaments

Question 87

What is meant by first degree ligament sprains?

Answer 87

Few collagen fibres damaged, minimal functional change

Question 88

Outline the prognosis and management of first degree ligament sprains

Answer 88

• Rest 7-10 days, NSAIDs, +/- support

- Leads to full recover in most cases, although there will be permanent damage, generally no lameness

Question 89

What is meant by second degree ligament sprains?

Answer 89

Still grossly intact, but more fibres damaged, haematoma may form and some degree of functional deficit

Question 90

Outline the management and prognosis for second degree ligament sprains

Answer 90

• Needs treatment to regain function
• If stable, conservative and support dressing
• Unstable: imbricate ligament, support dressing
• 6-10 weeks healing, 3-6 months to regain function

Question 91

What is meant by third degree ligament sprains?

Answer 91

Interstitial disruption or avulsion, function completely lost, may not be regained

Question 92

Outline the management and prognosis for third degree ligament sprains

Answer 92

• Needs treatment to regain function
• Suture repair or ligament replacement, possible tension banding
• 6-10 week healing, 3-6months to regain (partial) function
• Joint may require arthrodesis ultimately

Question 93

What is a common cause of third degree ligament sprains and what structures are involved?

Answer 93

• Often shearing injury e.g. RTA

- Damage includes collateral ligaments and cartilage

Question 94

Outline the generic conservative treatment of ligament sprains

Answer 94

• Rest, oftenmonths
• Reduce swelling using cold packs, massage and medication
• External coaptation e.g. Robert Jones bandage, bespoke hinged dressing

Question 95

List the surgical options for management of ligament sprains

Answer 95

• Primary ligament repair if enough left
• Internal ligament splint/prosthetic replacement
• Immobilisation with transarticular ESF
• Arthrodesis

Question 96

When is the use of transarticular ESFs indicated with ligament sprains?

Answer 96

Where the joint is grossly unstable

Question 97

Which breeds of dog are predisposed to plantar ligament degeneration?

Answer 97

• Shetland sheep dog
• Collies
• Racing Greyhounds

Question 98

Outline the common results of plantar ligament degeneration

Answer 98

• Degeneration leading to subsequent rupture of the ligaments
• Normally subluxation at level of proximal intertarsal joint
• Often bilateral
• In athletic dogs with traumatic rupture often also fracture of hock

Question 99

What management is required for cases of plantar ligament degeneration and rupture in dogs?

Answer 99

Arthrodesis of affected joint, commonly calcaneoquartal arthrodesis (sublux of proximal intertarsal) using plates

Question 100

Explain the typical pathophysiology of carpal ligament injuries

Answer 100

• Collateral ligament injuries to antebrachiocarpal joint usually extension injuries
• Naturally have a degree of valgus, therefore medial ligament rupture most serious and gives rise to valgus deformity