Small animal MSK disease 2

Question 1

Outline the aetiology of carpal hyperextension injuries

Answer 1

• Usually traumatic, associated with fall from height

- Can be degenerative (Collies)

Question 2

What other injuries may be associated with carpal hyperextension injuries?

Answer 2

Carpal bone fractures esp. when traumatic as well as the rupture of palmar ligaments and fibrocartilage

Question 3

Describe the diagnosis of carpal hyperextension injuries

Answer 3

• Characteristic seal stance
• Careful palpation
• Radiographic examination including stressed views - establish joints involved and therefore required treatment

Question 4

Outline the treatment of carpal hyperextension injuries

Answer 4

• Pancarpal arthrodesis most common
• Use bespoke plates, bone graft, removal of all articular cartilage
• Further support until partial arthrodesis occurred
• Splints an support bandages will fail

Question 5

Explain the difference between luxation and subluxation

Answer 5

• Luxation: cartilage surfaces not in contact at all

- Subluxation: partial contact of cartilage surfaces

Question 6

What is meant by joint incongruency?

Answer 6

Abnormal shape to bones and cartilage so cartilage does not fit together properly

Question 7

What are the possible underlying aetiologies of luxations?

Answer 7

Trauma (common), congenital (rare), developmental (frequent)

Question 8

Describe how traumatic luxations occur

Answer 8

Associated with third degree sprain (except in elbow luxation), joint capsule and other peri-articular structure damage

Question 9

Outline the consequences of traumatic luxation

Answer 9

• Traumatic arthritis
• Individual ligaments may never heal
• Capsule thickens to assume some function of the supporting ligaments

Question 10

Outline the treatment of traumatic luxation

Answer 10

• Surgery to restore acceptable function of ligaments
• May require salvage procedures
• Talocrural/tibiotarsal luxation - fixator will restore acceptable function

Question 11

Explain the cause of congenital luxations

Answer 11

• Malformation of joint, bone or soft tissue leading to abnormal articular surfaces
• Often severe associated bone deformity

Question 12

Describe the typical presentation of congenital luxations

Answer 12

• May be symmetrical
• Small breed dogs (e.g. cavvie) with shoulder luxations are rarely lame (mechanical rather than painful lameness)
• Congenital elbow luxation in Staffies

Question 13

Outline the treatment options for congenital luxations

Answer 13

• Conservative: first option, pain releif and weight management
• If unsuccessful, attempt surgical but poor success due to abnormal joint surfaces
• Salvage procedures typically required

Question 14

What is the prognosis for surgical treatment of congenital luxations?

Answer 14

Guarded

Question 15

Explain the cause of developmental subluxations/incongruencies

Answer 15

• Common
• Hip/elbow dysplasia
• Incongruency of joints leading to joint effusion and luxation

Question 16

Describe the typical presentation of developmental subluxation

Answer 16

• Commonly bilaterally symmetrical

- Develop secondary arthritis

Question 17

Outline the treatment of developmental luxations

Answer 17

• Conservative/medical management of the arthritis

- Salvage surgical procedures

Question 18

Explain the cause of degenerative luxation

Answer 18

Very common e.g. cranial cruciate ligament degeneration/rupture leading to cranial subluxation of the tibia

Question 19

Which joints are predisposed to luxation in dogs and cats?

Answer 19

• Hip and tarsus

- Patella (intermittent)

Question 20

Outline the assessment for luxation in dogs and cats

Answer 20

• Clinical examination (+/- GA): pain,asymmetry
• Laxity (depends on chronicity of disease)
• Orthogonal radiographs of limb, +/- stressed views

Question 21

When qould thoracic and abdominal radiographs be indicated when investigating joint luxation in cats and dogs?

Answer 21

Where traumatic luxation has occurred

Question 22

What test would indicate hip luxation on clinical examination of a cat/dog?

Answer 22

• Finger and thumb placed between ischial tuberosity and greater trochanter, hold both HLs
• When HLs extended behind animal, luxated limb will be shorter due to dorsal luxation

Question 23

Explain why laxity may not always be a good indicator of joint luxation

Answer 23

• Depends on chronicity of condition

- With time, partiarticular fibrosis and muscle contraction can stabilise the joint

Question 24

Outline the principles of repair of acquired/traumatic luxations

Answer 24

• Reduce joint into normal anatomical alignment, maintain reduction while capsule and other soft tissues heal
• Re-attach bone if avulsion present
• May require prosthetic ligament
• Post-op support as for sprains

Question 25

What are the 3 main stabilisers of the hip?

Answer 25

• Round ligament
• Joint capsule
• Acetabular rim

Question 26

List the options for the management of hip luxation

Answer 26

• Closed reduction
• Open reduction and stabilisation such as:
• Salvage procedures
• Transarticular pin
• Rectus femoris or ilio-femoral suture for craniodorsal luxation
• Hip toggle

Question 27

Describe closed reduction of hip luxation

Answer 27

• Manipulate hip back into acetabulum without surgery within 1 day of luxation
• Always readiograph after
• Care re/ soft tissue injuries and re-luxation
• May also require Ehmer sling

Question 28

What is the success rate for closed reduction of hip luxation?

Answer 28

50%, higher in dogs than cats

Question 29

Describe open reduction and stabilisation of hip luxation and give success rare

Answer 29

• Always includes soft tissue repair/imbrication
• E.g. transarticular pin, toggle, rectus femoris or ilio-femoral suture
• 75-85% success

Question 30

What salvage procedures may be used for hip luxation?

Answer 30

Replacementof excision

Question 31

Discuss the use of transarticular pins for hip luxation

Answer 31

• Most suitable for cats/small dogs
• Gives reasonable function but limited adduction
• Causes arthritis
• If incongruent may damage articular surface
• Requires 2nd procedure 3 weeks later to remove pin

Question 32

Describe the use of rectus femoris or ilio-femoral suture for craniodorsal hip luxation

Answer 32

• Suture placed through tunnel in base of greater trochanter and either: origin of rectus femoris, or hole made in ventral aspect of ilium
• Suture tightened with hip slightly internally rotated
• May cause slight internal rotation of paw (resolves with suture absorption)

Question 33

Discuss the use of hip toggles for canine hip luxation

Answer 33

• Challenging
• Medium to large dogs best
• Can cause articular damage if hip not congruent
• Very stable, functional joint if correct
• Braided multifilament suture use so some risk of infection

Question 34

Outline the method for the hip toggle in dogs

Answer 34

• Drill hole through acetabular notch
• Then another from origin of teres ligament, through femoral neck to base of trochanter
• Then place suture through hole, as pushed through pull on loop, toggle comes into right angle to hole
• Tightening holds head in acetabulum

Question 35

Outline the approach to traumatic elbow luxation

Answer 35

• Treat Asap, always GA, pre-op radiographs including thorax
• Closed or open reduction can be used
• Check collateral ligaments
• Post-op radiographs required

Question 36

Outline the approach to congenital elbow luxation

Answer 36

• Can be treated conservatively if dog is coping

- Surgery can be beneficial, but residual lameness common so little benefit over conservative

Question 37

Outline the general approach to acquired luxations

Answer 37

• Reconstruct supporting structures if possible
• Support repair
• Physio improves recovery
• DJD inevitable, warn owner

Question 38

Outline the general approach to subluxations

Answer 38

• very common
• medically manage if milk
• Salvage surgery if not coping

Question 39

Outline the general approach to congenital luxations

Answer 39

• Very rare
• Poorer prognosis
• Grossly dysplastic joint and better left alone

Question 40

What diagnostic techniques can be used for the evaluation of acutely traumatised joints?

Answer 40

• Careful physical examination
• Manipulation under GA
• Radiography
• Ultrasound
• arthroscopy
• CT
• MRI
• Need to look for concurrent injuries

Question 41

Outline the use of ultrasonography for the evaluation of acutely traumatised joints

Answer 41

• Damage to tendons, rarely for ligaments
• Linear scanner
• Bicipital, gastrocnemius and flexor tendons in particular

Question 42

Outline the use of arthroscopy for the evaluation of acutely traumatised joints

Answer 42

• Examine intra-articular ligaments e.g. cruciates

- And those withinn the joint capsule such as glenohumeral ligaments of the shoulder

Question 43

Outline the use of CT for the evaluation of acutely traumatise joints

Answer 43

• Limited ability to examine soft tissue structures
• Good for demonstration of tendon sheath effusions and tendon mineralisation e.g. around shoulder joint (mineralisation of suprascapularis tendon or infraspinatus)

Question 44

Outline the use of MRI in the evaluation of acutely traumatised joints

Answer 44

• Good for soft tissues

- Best modality for tendons and ligaments

Question 45

List the different types of non-inflammatory joint disease

Answer 45

• DJD/OA: instability, trauma or developmental disease

- Coagulopathic joint disease

Question 46

List the different types of inflammatory joint disease

Answer 46

• Septic arthritis
• Non-bacterial: rickettsia, viral, protozoal
• Sterile: IMPA
• Neoplastic arthritis
• Crystal induced arthritis

Question 47

Explain how tick borne diseases lead to arthritis

Answer 47

Immune mediated responses that cause polyarthritis

Question 48

What is the main type of neoplastic arthritis?

Answer 48

Synovial cell sarcomas

Question 49

What tumours may cause neoplastic arthritis?

Answer 49

• Synovial cell sarcomas
• Fibrosarcomas
• Haemangiosarcomas
• Osteosarcomas

Question 50

Describe the common presentation for neoplastic arthritis

Answer 50

• Dogs (rare in cats, large animals)
• Large joints of limb usually (e.g. stifle)
• lameness, joint effusion, soft tissue swelling, lytic areas of bone destruction on radiograph both sides of joint

Question 51

In which species does true gout occur?

Answer 51

Those without uricase enzyme: humans, birds, reptiles

Question 52

How does gout occur in reptiles?

Answer 52

• Production of uric acid normal, secrete as urates in proximal renal tubules
• Damage to kidney raises uric acid in blood
• Deposits in various parts of body incl. kidney, pericardial space, joints

Question 53

Outline crystal induced arthritis in dogs

Answer 53

• White, peri-articular deposits lead to inflammatory reaction
• Rare in dogs
• Peri-articular synovial deposits of calicum pyrophosphate, or Ca phosphate
• Single or multiple can be affected

Question 54

Outline the aetiology of IMPA

Answer 54

• Usually type III hypersensitivity reaction
• Immune complex deposition in synovial basement membrane, complement cascade activation
• Recruitment of inflammatory cells
• Leads to release of nitric oxide, free radicals, proteases, leading to tissue damage

Question 55

Give examples of erosive immune mediated polyarthritis

Answer 55

• Idiopathic erosive polyarthritis
• Rheumatoid arthritis
• Semi-erosive polyarthritis of greyhounds
• Periosteal proliferative polyarthritis in cats (rare)

Question 56

Describe type I non-erosive IMPA

Answer 56

Idiopathic IMPA, most common

Question 57

Describe type II non-erosive IMPA

Answer 57

• Associted with infection remote from joint (25% of cases)

- Not septic, is an immune reaction

Question 58

Describe type III non-erosive IMPA

Answer 58

• Associated with GI disease (15% of cases)

- Immune complexes deposited in joint

Question 59

Describe type IV on-erosive IMPA

Answer 59

Associated with neoplastic disease i.e. paraneoplastic syndrome (rare)

Question 60

Describe the involvement of SLE in joint disease

Answer 60

• Multisystemic immune mediated disease, rare
• Joint disease + glomerular disease, or joint disease + skin lesions
• IMHA +/- thrombocytopaenia
• Combination of clinical signs increases potential for multisystemic disease

Question 61

List some unusual syndromes of non-erosive immune mediated polyarthritis

Answer 61

• Polyarthritis/meningitis syndrome
• Polyarthritis/polymyositis syndrome
• Breed associated non-erosive IMPA
• Familial Shar-Pei fever
• Drug induce IMPA

Question 62

List the breeds that are associated with breed related non-erosive IMPA

Answer 62

• Weimaraner
• Boxer
• Akita
• Bernese MD
• GSD
• Spaniels
• Beagles

Question 63

Outline drug induced IMPA

Answer 63

• Immune complex deposition as a result of drug-antibody interaction
• Reported with sulohonamides esp in Doberman
• Post live Calicivirus vaccines in cats

Question 64

Outline the aetiology of septic arthritis in small animals

Answer 64

• trauma
• Post-surgery
• Intra-articualr injection
• Idiopathic

Question 65

What may lead to idiopathic septic arthritis?

Answer 65

Underlying OA in dogs

Question 66

What may cause septic arthritis in multiple joints of adult small animals?

Answer 66

• Haematogenous spread of infeciton in debilitated/immunosuppressed animals
• Non-bacterial causes e.g. Rickettsia, Mycoplasma, fugnal , viral, protozoal (rare)

Question 67

What clinical signs may be seen in cats with septic arthritis as a result of Calcivirus?

Answer 67

• Inflammatory joint disease
• Pyrexia
• Other flu symptoms

Question 68

What may lead to septic arthritis in large animal neonates?

Answer 68

• Failure of passive transfer of immunity
• Umbilical infection
• Haematogenous spread of infection
• Osteomyelitis

Question 69

Describe the signalment for IMPA

Answer 69

• Larger breed dogs <6yrs old
• (Also seen in smaller breeds and mixed beedds)
• More dogs than cats

Question 70

What would a shifting lameness that may wax and wane be suggestive of?

Answer 70

Immune mediated disease

Question 71

Describe the lameness commonly seen in IMPA

Answer 71

Often look stiff rather than lame, more than one limb affected

Question 72

In a case of arthritis in a small animal, what should be included in the physical examination?

Answer 72

• Assess for pyrexia
• Number of limbs/joints affected
• Palpation to assess heat, swelling, ROM, pain, joint affected
• Neck/muscle pain
• Lymph nodes assessed

Question 73

When performing arthrocentesis for the diagnosis of an inflammatory arthritis in small animals, what parameters of the synovial fluid needs to be assessed?

Answer 73

• Colour
• Total and differential white cell counts
• Cell morphology
• Culture and sensitivity

Question 74

When would radiography be indicated in the work up for a case of inflammatory arthritis?

Answer 74

• If joint palpation reveals crepitus, instability, poor ROM, deformity
• If there is poor response to treatment

Question 75

Compare the radiographic findings expected for erosive vs. non-erosive IMPA

Answer 75

• Erosive: subchondral defects, collapsed joint spaces, proliferation and calcification of periarticular soft tissue
• Non-erosive: joint effusion likely only finding

Question 76

When might a diagnosis of erosive IMPA be missed on radiography?

Answer 76

If radiographs taken too early in course of disease - if not responding well to treatment, may be appropriate to repeat radiographs of multiple joints

Question 77

What additional imaging modalities may be required in the investigation of IMPA and why?

Answer 77

• If suspicious of type II, III or IV IMPA or multi-systemic immune mediated disease
• Thoracic radiographs: mets of neoplastic disease, endocarditis
• Abdominal ultrasound
• Echocardiography

Question 78

When might contrast studies be useful in the investigation of inflammatory joint disease?

Answer 78

• Septic arthritis
• Especially in horse
• Look for communication between tracts/sinuses and a joint
• May be able to identify a foreign body

Question 79

Outline the laboratory tests that may be used in the investigation of inflammatory joint disease

Answer 79

• Haematology: inflammatory leukogram? Anaemia of chronic disease? IMHA?
• Biochem: changes consistent with systemic disease
• Urinalysis: proteinuria/evidence of glomerulonephropathy
• Serology: ANA and rheumatoid factor (non-specific in dogs)
• Histopathology: tissue biopsy for unusual syndrome

Question 80

Compare the findings in haematology and biochemistry for IMPA vs non-inflammatory joint disease

Answer 80

• More likely to find changes with IMPA
• Leukocytosis
• Hyperglobulinaemia
• Mild hypoalbuminaemia

Question 81

What are the key aspects of investigation that may aid the identification of IMPA?

Answer 81

• Full flexion of carpi and squeezing to assess pain response
• Subtle enlargement of LNs
• Aspiration of multiple joints
• Changes in >1 joint, no bacteria on cytology or culture

Question 82

Outline the key aspects of the treatment of septic arthritis in small animals

Answer 82

• Must be fast and aggressive
• Systemic and intra-articular antibiotics
• Joint lavage and drainage to clean joint
• Post-op care important

Question 83

Discuss the use of lavage in the treatment of septic arthritis in horses, farm animals and small animal cases

Answer 83

• Horses: antibiotics rarely enough, lavage used as minimum

- Farm and severe small animal: lavage possible, often not cost effective in farm animals

Question 84

Outline the use of arthroscopy in the treatment of septic arthritis

Answer 84

• Direct visualisation of joint
• Removal of fibrin
• Foreign material or articular fractures
• Used in chronic or complicated cases
• Ideally in every equine case

Question 85

Outline the use of systemic antibiotics in the treatment of septic arthritis in small animals

Answer 85

• Broad spec
• C+S takes time, start before results available
• Amoxyclav common in small animals (penicillin + aminoglycoside in large)
• Start IV/IM admin, switch to oral after 5-7 days, total duration 2-4 weeks min.

Question 86

Outline the use of local antibiotics in the treatment of septic arthritis in small and large animals

Answer 86

• Intra-synovial admin common in large animals
• High doses with low cost and toxicity achieved
• Gentamycin, amikacin, ceftiofur in horses
• Higher risk of nephrotoxicity in dogs
• PMMA beads useful in chronic/difficult cases

Question 87

Outline the post-operative care in cases of septic arthritis in small animals

Answer 87

• NSAIDs
• Rest, controlled exercise, physio
• Avoid intra-articular medication, esp. in early stages as will predispose to infection (esp. HAs, PsGAGs, corticosteroids)

Question 88

Discuss the prognosis for septic arthritis in small animals

Answer 88

• Following systemic antibiotics only: 56% full clinical recovery, 32% persistent mild lameness, 12% poor response (consider lavage)
• Factors affecting outscome: duration, severity, multiple joints affected, concurrent problems (e.g. bacterial endocarditis)

Question 89

Outline the general treatment of IMPA

Answer 89

• Treat/remove underlying cause or antigenic trigger
• Analgesia while managing primary disease
• Nutritional support where needed

Question 90

Outline the treatment of type I IMPA

Answer 90

• No underlying cause therefore immunosuppressive treatment
• Single agent e.g pred
• Combination therapy may be needed in refractory cases/side effects e.g. pred + ciclosporin/azathioprine
• Newer single agent therapy e.g. mycophenolate, luflenomide

Question 91

Outline the monitoring required when treating IMPA

Answer 91

• Clinical sings
• Physical examination findings, owner reports
• Follow up arthrocentesis
• Serum C reactive protein

Question 92

Evaluate the use of serum C reactive protein for the monitoring of IMPA

Answer 92

• Good surrogate marker for synovial inflammation
• Good correlation with pain scores and joint cellularity
• Objective and non-invasive method to monitor cases

Question 93

Discuss the prognosis for erosive and non-erosive IMPA

Answer 93

• Good for non-erosive, but may relapse

- Poor for erosive, surgical salvage procedures often required, euthanasia is reasonable alternative

Question 94

Compare the joints typically affected by IMPA and septic arthritis

Answer 94

• IMPA: smaller distal joints e.g. hocks, carpi, stifle

- Septic: more proximal larger joints e.g. elbow

Question 95

Compare the synovial fluid analysis of IMPA and septic arthritis

Answer 95

• IMPA: ~300 cells x10^9/l, <95% neutrophils, usually non-degenerate
• Septic: cell count variable but usually very high, most cells are degenerate neutrophils

Question 96

Outline why septic arthritis may not also be demonstrable by bacteria on smears

Answer 96

Pathology is more to do with sensitive location of bacteria, rather than their number so may be a small load

Question 97

What may help indicate that blood in synovial fluid following arthrocentesis is as a result of sampling?

Answer 97

• Blood streak in otherwise clear fluid

- Sample starts clear then changes to bloody

Question 98

Compare the findings on a smear for an iatrogenic/very acute haemoarthrosis vs a long standing one

Answer 98

• Iatrogenic/very acute: platelets present

- Chronic: no platelets (clotted) , increased white cells, erythrophagocytosis, haemosiderin, haematoidin

Question 99

How can bacteria be distinguished from artefacts on a synovial smear?

Answer 99

• Artefact of fluid not lying flat on slide leading to dotty granular background
• May resemble bacteria, but is pink and irregular vs bacteria which are blue and regular

Question 100

Explain why neutrophils may be confused with lymphocytes in synovial smears

Answer 100

Slow drying leads to lobes of neutrophilic nucleus becoming folded, so may look similar to lymphocyte