Equine MSK disease 4 Flashcards
How may sepsis or synovitis of the tarsal joint commonly occur in horses?
Kick to plantar/medial aspect of the hock
List the synovial structures in the hock that may be affected by trauma in the horse, and where relevant, state what they contain
- Calcaneal bursa: superficial part of SDFT
- Tarsal sheath: surrounds DDFT
- Tarsocrural joint
- Proximal intertarsal joint
- Distal intertarsal joint
- Tarsometatarsal joint
List the causes of stifle lameness in the horse
- DJD
- OCD
- Bone cysts
- Fractures
- Joint effusion
- Septic arthritis
- Meniscal injuries
- Cruciate injuries
- Collateral ligament injuries
- Patellar ligament injuries
Outline the clinical signs of stifle lameness in the horse
- Proximal limb lameness exacerbated by soft ground
- Abduction when avoiding flexion of joint
- Reduced ROM
- Pain on flexion
- Joint effusion in one or more of the 3 compartments
- Pain on palpation (should be able to palpate all 3 patellar ligaments, and medial and lateral menisci)
- Crepitus if fractures
What are the 3 joint compartments of the stifle in the horse? Which are usually implicated in joint effusion?
- Femoropatella (most common)
- Medial femorotibial (meniscal disease)
- Lateral femorotibial
What would indicate a rupture of the peroneus tertius in the horse?
Ability to flex stifle and extend hock - should usually flex together
Describe the joint communications in the stifle horses, and explain the importance of this
- Femoropatellar joint usually communicates with medial femorotibial joint
- Communicates with the lateral FT joint in 25% of horses
- The FT joints do not communicate with each other
- Need to block each one individual if performing intra-articular anaesthesia
Explain how pain is localised in the equine stifle
- Intra-articular anaesthesia, block each joint individually
- No perineural anaesthesia!
What is the most common soft tissue injury of the equine stifle?
Medial meniscal injury
Outline the diagnosis of medial meniscus injury the horse
- Medial femorotibial (+/- femoropatella) effusion
- Radiography: presence of changes = poor prognosis
- Ultrasonography: evaluation of soft tissues e.g. medial and lateral meniscus, collateral ligaments, patella ligaments, components of cruciate ligament
- Arthroscopy (soft tissues and cartilage)
Describe the ultrasonographic features that may be present in a medial meniscal injury in the horse
- May have signs of DJD
- Bony remodelling
- Meniscus bulging out of joint
- Irregular shape of meniscus
- Differences in echogenicity
- May see tear
Explain the usefulness of radiography for establishing a prognosis for stifle injuries in the horse
- Many are soft tissue injuries, but can be used to indicate degree and treatment required
- Signs of DJD indicate for return to athletic function
- Identification of bony lesions e.g. OCD, subchondral bone cysts, DJD, fractures
Describe the normal ultrasonographic appearance of the equine meniscus
- Triangular and flush with the bone
- Collateral ligaments run over the top
- Should be homogenous
- May have blood vessels present that cause shadowing
Discuss the use of arthroscopy in the diagnosis of meniscal injury in the horse
- Can combine diagnosis and treatment
- But costly and requires GA
- Cannot facilitate complete evaluation of the menisci or cruciate ligaments
Outline the treatment options for meniscal injuries in the horse
- Rest and NSAIDs
- Arthroscopic debridement
Discuss the prognosis for meniscal injuries in the horse
- Return to function 50-60%
- Poorer prognosis if radiographic changes present (arthroscopy unlikely to be useful)
- Degree of lameness reflects prognosis
- Older horses = poorer prognosis
Briefly outline cruciate injuries in the horse (which cruciate, associated pathology, diagnosis, treatment, prognosis)
- Cranial cruciate
- AP: menisci, collateral ligaments, articular cartilage
- Dx: radigraphy, arthroscopy
- Tx: arthroscopic
- Px: depends on severity and presence of radiographic changes
Which collateral ligament is most commonly injured in the horse?
Medial collateral
In which horses are patellar ligament injuries most likely to occur, and what often occurs concurrently?
- Jumping horses
- Commonly see patellar fractures/pathology
Discuss the aetiology of subchondral bone cysts in the horse
- Unclear
- May be developmental or traumatic
Where are bone cysts commonly seen in the equine hindlimb and how are these diagnosed?
- Medial femoral condyle
- Latero-medial radiograph, palmar-dorsal radiograph (caudo-15-proximal to cranio-distal oblique projection may be better)
Outline the treatment of subchondral bone cysts in the stifle of the horse
- Debridement of cyst
- Arhtroscopic injection of steroid into cyst cavity
Discuss the prognosis for subchondral bone cysts in the equine stifle
- Approx. 60% come sound
- Older horses have worse prognosis
- Radiographic changes of DJD indicate worse prognosis
What structures in the equine forelimb are commonly affected by kick wounds?
Bony prominences e.g. splint bones, olecranon
Which structures in the equine forelimb are commonly affected by trauma/concussion
- Pastern
- Metacarpus
Which structures in the equine forelimb are commonly affected by stress fractures?
- Metacarpus
- Radius
- Humerus
- Scapula
Discuss the management of open fractures of the splint bones in horses
- Rest, bandaging, anti-inflammatories
- Antibiotics
- Surgical removal possible, can be done standing
- If proximal, risk of involvement of joint, need more aggressive approach
What is a serious complication of kick wounds to the area of splint bones that may not be noted on radiography?
- Non-displaced fractures of the cannon bone
- Displace catastrophically during recovery from anaesthesia
Describe the appearance of ulnar/olecranon fractures in the horse
- Dropped elbow
- Similar to radial paralysis
Discuss the management and prognosis of ulnar/olecranon fractures in the horse
- Consider referral for surgical repair
- Usually good prognosis with repair
Describe the clinical signs of stress fractures in the horse
- lameness (single/multiple limbs possible)
- Variable presentation and duration
- Absence of clinical signs in affected limb possible
- Localised inflammation
- regional pain response to palpation/manipulation
- Specific tests e.g. tibial torsion test
Where are stress fractures commonly found in the equine hindlimb?
- Sacrum
- Pelvis
- Tibia
Identify the methods that can be used in the diagnosis of stress fractures in the horse
- Clinical signs and history (intense exercise, lameness associated with work)
- Diagnostic anaesthesia
- Scintigraphy
- Radiography
- Ultrasonography
- MRI, CT
Outline the management of equine stress fractures
- Modify exercise patterns
- Change intensity, level and/or type of exercise
- Ensure balanced nutrition (calcium 23g/day, phosphorous 23g/day)
- Extracorporeal shock wave therapy and pulsed electromagnetic fields anecdotal evidence
In which horses, and in which joints are articular fractures most common?
- Racehorses
- Fetlock
- Sesamoid bones
- Carpus
Outline the treatment of articular fractures in horses
- Remove small fragments (arthroscopically, or arthrotomy)
- Stabilise larger fragments using screws
- Treat joint inflammation
Which horses are predisposed to fracture of the second phalanx and in which limb does this most commonly occur?
Quarter horses, in the HLs
What types of fracture most commonly occur in the second phalanx?
- Palmar/plantar eminence fractures of proximal P2
- Or comminuted fractures
Outline the treatment of fracture of the second phalanx in horses, and discuss the prognosis
- Internal fixation using plates and screws and/or transfixation pin cast
- Lameness usually present after, depends on degree of OA that develops in dip and PIP
- Prognosis depends on comfort of horse after fracture stabilisation and contralateral laminitis development
In which horses is fracture of the first phalanx more common
Any horse used for performance
