Soft Tissue Trauma

Question 1

What conditions present true veterinary emergencies?

Answer 1

• Respiratory distress
• Neurological abnormalities
• Bleeding from body orifices
• Rapid, progressive abdominal distension
• Dystocia
• Collapse
• Extreme pain
• Fractures
• Severe wounds
• Urinary obstruction
• Persistent vomiting
• Toxin ingestion

Question 2

Outline the advice that should be given to an owner in case of a veterinary emergency

Answer 2

• Encourage bringing to practice ASAP
• Need to protect the spine (lift gently on rigid board)
• Place in confined space if suspect fracture to minimise movement
• Direct pressure on active haemorrhage
• Calm owner before transport, ensure know the route

Question 3

Outline the criteria for a P1 (top priority) emergency case

Answer 3

• History of head or spinal trauma
• History consistent with internal injuries
• Life threatening haemorrhage (chest, abdomen worst)
• Cardiorespiratory compromise
• Diagnose based on history, observation and physical examination
• Re-assess -cardiovascular function can deterioratem, CNS signs may become more obvious

Question 4

What action is required for a P1/top priority emergency case?

Answer 4

Immediate action, high risk of death

Question 5

Outline the criteria for P2 emergency cases

Answer 5

• Do not move, need stabilisation prior to moving e.g. fracture, tendon rupture/laceration, joint instability, vascular or neurological damage
• Esp. important for large animals

Question 6

Outline the criteria for P3 emergency cases

Answer 6

• Require urgent attention, but may not be immediately life threatening
• Synovial involvement (can wait 24-48hrs)
• Bony involvement
• Contaminated wounds

Question 7

Outline the criteria for P4 emergency cases

Answer 7

• Delayed action
• Do not require emergency treatment or urgent action
• Must rule out all previous problems, be prepared to evaluate findings and diagnosis
• Explain to owner what to look for in case of deterioration

Question 8

In an emergency case, outline the initial assessment of the patient

Answer 8

• If lame, assess degree, appearance of limb may not match up with degree of lameness
• Conformation/gross abnormalities
• Location and discharge from wound
• Degree of blood loss
• Contamination

Question 9

Outline what should be investigated in the physical examination of an emergency case

Answer 9

• Presence/absence of crepitus
• Degree of contamination
• Soft tissue involvement
• Bony involvement
• Swellings and effusions

Question 10

List and justify the diagnostic tests that should be included in the assessment of an emergency case

Answer 10

• Radiogrpahy esp. traumatic injury, abdo and thoracic, assess cardioresp., diaphragm, bladder, pelvis
• Ultrasonography (AFAST, assess effusion, haemorrhage, bladder trauma)
• Synoviocentesis if synovial involvement
• PCV/TP to assess blood loss later in disease progression
• Assessment of other body system function using haematology, biochem, urinalysis esp. if may need surgery
• +/- MRI, CT, gamma scintigraphy

Question 11

Identify the key features of first aid for acute trauma/wounds

Answer 11

• Control haemorrhage
• Control pain
• Reduce contamination
• Bandaging wounds
• Wound closure
• Splinting of fractures/tendon injuries

Question 12

How can haemorrahge be controlled in acute trauma/wounds?

Answer 12

• Pressure (bandage or manual)
• Tourniquet
• Ligatures for large vessels

Question 13

What are the components of analgesia in acute trauma/wound cases?

Answer 13

• NSAIDs
• +/-Opioids (NOT cattle/ruminants)
• Splinting/bandaging to prevent movement of limbs
• +/- sedation

Question 14

List the NSAIDs that can be used in trauma cases for dogs

Answer 14

• Robenacoxib
• Meloxicam
• Carprofen

Question 15

List the NSAIDs that can be used in trauma cases for cats

Answer 15

• Robenacoxib
• Meloxicam
• Ketoprofen

Question 16

List the NSAIDs that can be used in trauma cases for horses

Answer 16

• Flunixin meglumine
• Meloxicam
• Ketoprofen

Question 17

List the NSAIDs that can be used in trauma cases for cattle

Answer 17

• Ketoprofen

- Meloxicam

Question 18

What conditions would containdicate the use of NSAIDs in an acute trauma/wound case?

Answer 18

• Hypovolaemia
• Severe haemorrhage
• Renal/liver compromise

Question 19

List the opioids that can be used in acute trauma/wounds in dogs

Answer 19

• Methadone
• Buprenorphine
• Fentanyl

Question 20

List the opioids that can be used in acute trauma/wounds in cats

Answer 20

• Methadone

- Buprenorphine

Question 21

List the opioids that can be used in acute trauma/wounds in horses

Answer 21

• Butorphanol
• Buprenorphine
• Morphine

Question 22

What is a potential complication when using opioids in horses?

Answer 22

• Can lead to excitation, combine with alpha 2 agonist to reduce this
• Pethidine will lead to horse becoming completely uncontrollable

Question 23

What are the potential risks when using opioids in acute trauma/wound cases?

Answer 23

• Respiratory depression
• Bradycardia
• NB: Do not let this stop you using them!

Question 24

How can wound contamination be reduced in an emergency case?

Answer 24

• Gross decontamination
• Clipping
• Lavage
• Antiseptics
• Debridement
• KY jelly in wound

Question 25

List the different categories of wound closure, and identify the factors that underlie the decision making process

Answer 25

• Primary closure, delayed primary closure, delayed secondary closure, second intention healing
• Depends on contamination, ability to appose wound edges, degree of dead space below

Question 26

Briefly outline splinting of fractures in emergency cases

Answer 26

• Depends on region, in SA, proximal limb fractures difficult to splint
• Splint the joints above and below
• Open fractures must be splinted
• Robert Jones adequate for distal limb fractures
• Do not pull exposed tissue back through skin

Question 27

What are the main functions of applying bandages in acute trauma/wound cases?

Answer 27

• Reduces fluid accumulation
• Reduces contamination
• Reduces movement
• Prevents dehydration

Question 28

What are the potential consequences of incorrect bandaging?

Answer 28

• Tissue maceration and infection
• Continued contamination
• Sloughing of new epithelialisation
• Continued pain for the patient
• Impairment of vascular supply

Question 29

What are the key client considerations in decisions regarding equine wounds?

Answer 29

• Prognosis for athletic function
• Prognosis for pasture soundness
• Cost
• Duration of box rest
• Time out of work
• Amount of nursing required

Question 30

Which equine injuries carry a poor prognosis for recovery?

Answer 30

• Compound, open fractures with significant contamination of soft tissue
• Complete fractures involving the femur, humerus and tibia
• Complete lacerations of SDFT, DDFT, SL
• Complete laceration of SDFT, DDFT and distal sesamoidean ligaments

Question 31

What are the 2 broad categories of soft tissue injuries?

Answer 31

• Percutaneous

- Overstrain

Question 32

What is the key determinant of prognosis for percutaneous soft tissue injuries?

Answer 32

Location and degree of damage

Question 33

In which locations do percutaneous injuries carry a worse prognosis?

Answer 33

Palmar/platar aspect injuries worse, more difficult to heal

Question 34

How do overstrain soft tissue injuries occur?

Answer 34

• Overload leading to breakdown of structure

- Can be acute onset overload or chronic condition

Question 35

Compare the incidence of chronic and acute overstrain soft tissue injuries and briefly explain this

Answer 35

• acute onset overload: overwhelm tensile strength

- Chronic: more common, microdamage progressing to degree where structure breaks down in one event

Question 36

Which tendons are most commonly affected by soft tissue injury in horses?

Answer 36

• SDFT (esp. race horses)

- DDFT

Question 37

Which tendons are most commonly affected by soft tissue injury in dogs?

Answer 37

Tendons of achilles and biceps brachii

Question 38

Which ligaments are most commonly affected by soft tissue injury in horses?

Answer 38

• Suspensory ligament (proximal suspensory desmitits, esp. dressage)
• Suspensory branch desmitits

Question 39

Which ligaments are most commonly affected by soft tissue injury in dogs?

Answer 39

• Cruciate stifle ligaments

- Collateral ligaments

Question 40

Which questions are relevant to the investigation of a horse with suspected tendon or ligament disease>

Answer 40

• Duration of problem?
• Onset, and signs at onset?
• Exacerbation of problem?
• Presenting signs?
• Response to treatment?

Question 41

Outline the clinical evaluation of a horse with suspected tendon or ligament disease

Answer 41

• Evaluate stance/posture
• Palpate limbs with animal standing for swelling, heat, pain on palpation
• Lift limb and palpate when soft tissue relaxed
• Lift contralateral limb
• Check ROM

Question 42

What injury is indicated by hyperextension of the fetlock in a horse (sunken fetlock)?

Answer 42

Marked injury of suspensory apparatus/suspensory ligament

Question 43

What commonly occurs in the contralateral limb following recovery from soft tissue injury, and explain why?

Answer 43

• Both limbs will have experienced same stresses/forces throughout life, when one is injured, likely that the other also has subclinical disease
• Will likely suffer strain/rupture once back in exercise

Question 44

What injury is indicated in a horse with a sunken fetlock where the toe is also off the ground?

Answer 44

SDFT and DDFT dysfunction

Question 45

What injury is indicated in a horse with a collapsed fetlock and toe off the ground?

Answer 45

SDFT, DDFT, SL dysfunction

Question 46

What injury is indicated in a horse with knuckling that is not a result of neurological condition?

Answer 46

Extensor tendon dysfunction

Question 47

Which imaging modalities are of use with non-emergency soft tissue injuries

Answer 47

• Ultrasound
• Radiography
• MRI
• Arthroscopy/tenoscopy/bursography

Question 48

What are the advantages of ultrasonography in the investigation of soft tissue injuries?

Answer 48

• Good for soft tissue assessment
• Good for bony surface assessment e.g. for avulsions
• Quick and easy
• portable unit
• GA not needed
• Oedema of soft tissue injury provides excellent contrast

Question 49

What are the weaknesses of ultrasonography in the investigation of soft tissue injuries?

Answer 49

• Expensive equipment
• Experience in interpretation needed
• 2D images obtained

Question 50

Justify the use of radiography in the investigation of soft tissue injuries

Answer 50

• Primary soft tissue injury may have bony involvement e.g. avulsion injury, esp. with suspensory ligament
• Allows assessment of joint angles

Question 51

Justify the use of MRI in the investigation of soft tissue injuries

Answer 51

• Distal limb especially useful

- Fast evaluation of of acute injuries

Question 52

What are the most common indications for use of arthroscopy, tenoscopy or bursography in the investigation of soft tissue injuries?

Answer 52

• More chronic management

- Or acute cases with wounds that may have resulted in septic processes in joint

Question 53

When should ultrasonography of soft tissue injuries be carried out and why?

Answer 53

• Repeat ~7 days after injury in order for fibres to become more destroyed by proteinases, macrophages, more oedema will be present allowing better contrast
• Allows assessment of full extent and progression of damage

Question 54

What ultrasonographic features may change with soft tissue injury?

Answer 54

• Echogenicity
• Cross sectional area
• Fibre alignment
• Margins of the structure
• Shape of the structure
• Location of the structure

Question 55

What soft tissue injury is most likely to cause the following clinical signs?
Heat and pain on palpation of the palmar metacarpal region of the equine limb, bowed appearance of the palmar metacarpus, vascular engorgement, lameness

Answer 55

Superficial digital flexor tendonitis

Question 56

What may be found on palpation of the metacarpal region of a limb with SDF tendonitis?

Answer 56

• Thickened SDFT
• Soft swelling of the SDFT (change in texture, more spongy)
• Pain on gentle pinching

Question 57

Describe the common ultrasound findings in a case of superficial digital flexor tendonitis

Answer 57

• Core lesions most common
• Transverse: loss of normal echogenicity depending on stage of disease, increased cross sectional area
• Longitudinal: loss of normal parallel fibre alignment, and lesions of mixed echogenicity, shorter fibres

Question 58

Compare the echogenicity of acute, subacute and chronic superficial digital flexor tendonitis lesions

Answer 58

• Acute: anechoic (filled with blood)
• Subacute: hypoechoic
• Chronic: hyperechoic areas

Question 59

Give the approximate severity, time out of training and prognosis for return to racing for an SDFT lesion where the total lesion CSA/total tendon CSA = 0-15%

Answer 59

• Mild severity
• 10 months out of training
• 63% prognosis for return to racing

Question 60

Give the approximate severity, time out of training and prognosis for return to racing for an SDFT lesion where the total lesion CSA/total tendon CSA = 16-25%

Answer 60

• Moderate severity
• 11 months out of training
• 30% prognosis for return to racing

Question 61

Give the approximate severity, time out of training and prognosis for return to racing for an SDFT lesion where the total lesion CSA/total tendon CSA = >25%

Answer 61

• Severe
• 18 months out of training
• 23% prognosis return to racing

Question 62

Outline the value of ultrasonography in monitoring the progression of SDFT injury

Answer 62

• Used for management of re-initiation of training and intensity
• re-scan before increasing/changing exercise
• Re-scan every 2-3 months and before any change in exercise
• If >10% increase in CSA, reduce exercise level

Question 63

Compare the occurrence of particular tendon injuries depending on the work done by the horse

Answer 63

• SDFT rupture more common in racehorses

- Suspensory ligament rupture more common in dressage or show jumpers

Question 64

Describe the normal ultrasonographic appearance of the suspensory ligament

Answer 64

Heterogenous due to presence of ligamentous fibres, muscle fibres and fat

Question 65

Describe the diagnosis of proximal suspensory ligament desmitis in the hindlimb of a horse

Answer 65

• Rare to palpate swelling/heat as is deep to other soft tissue structures and surrounded by fascia
• Pain on deep palpation
• Diagnostic analgesia and imaging findings (ultrasound +/- MRI)
• Usually present with lameness, uni or bi lateral

Question 66

Describe the diagnosis of proximal suspensory ligament desmitits in the forelimb

Answer 66

• Radiography may indicate small zone of sclerosis, indicating origin lesion of suspensory ligament
• Ultrasound

Question 67

Discuss the prognosis for proximal suspensory desmitis

Answer 67

• Forelimb: good
• Hindlimb: acute desmitis reasonable prognosis
• Chronic: poor, improves with treatment

Question 68

List the treatment options for chronic suspensory desmitis

Answer 68

• Extracorporeal shockwave therapy

- Fasciotomy and neurectomy

Question 69

What signs would be seen with suspensory branch desmitits in the horse?

Answer 69

• Palpable pain
• Peri-ligamentous heat
• Peri-ligamentous and ligamentous swelling
• Variable lameness

Question 70

Outline the diagnosis of suspensory branch desmitis in the horse

Answer 70

• History, physical examination

- Ultrasonography (most useful), MRI (possible, usually not needed)

Question 71

What commonly develops with chronic suspensory branch demitis?

Answer 71

Peri-ligamentous fibrosis

Question 72

Describe the method for, and typical ultrasonographic appearance with suspensory branch desmitits

Answer 72

• Brnaches are on lateral and medial aspects of the limb, image these directly
• Distorted, disrupted appearance
• Central anechoic region
• In longitudinal view will see areas of disruption and hyperechogenicity

Question 73

For which conditions is extracorporeal shockwave therapy particularly useful?

Answer 73

Enthesious problems (where tendons/ligaments inert onto bone)

Question 74

Discuss the prognosis of suspensory branch demitis

Answer 74

• Reasonable, but recurrence common
• Chronic desmitis carries worse prognosis
• PRP and stem cell treatment may improve prognosis

Question 75

What conditions would the following signs be suggestive of?
Swelling in proximal metacarpal region, pain on palpation, heat, vessel engorgement, lameness variable, acute onset lameness usually with fetlock flexural deformity

Answer 75

• Desmitis of the ALDDFT
• Desmitis of the SDFT
• Distinguish by distribution of swelling - ALDDFT more proximal, SDFT causes bowing

Question 76

Describe the ultrasonographic appearance of desmitis of the ALDDFT

Answer 76

• Increased CSA
• Loss of normal fibre pattern
• Loss of normal contour

Question 77

Which tendon is the one most commonly injured within the digital flexor tendon sheath?

Answer 77

DDFT

Question 78

What are the 2 types of tenosynovitis of the digital flexor tendon sheath?

Answer 78

• Primary (usually associated with some kind of injury)

- Or secondary

Question 79

Which structures run through the digital flexor tendon sheath that commonly cause secondary tenosynovitis and how does this occur?

Answer 79

• Pathology of soft tissue structures running through the sheath leads to inflammation of sheath
• Superficial digital flexor tendon
• Deep digital flexor tendon
• Manica flexoria
• Palmar annular ligament

Question 80

What are the functions of tenoscopy?

Answer 80

• Diagnostic value

- Therapeutic value

Question 81

What are the key features in the treatment of tenosynovitis of the digital flexor tendon sheath?

Answer 81

• Intrasynovial anti-inflammatories e.g. steroids, hyaluronic acid
• Tenoscopy

Question 82

Discuss lesions of the DDFT that occur further distally in the foot (diagnosis and treatment)

Answer 82

• Increasingly recognised as a cause of lameness
• Impossible to use ultrasound through the keratinised hoof wall - MRI required
• Treatment options: rest, farriery, intrabursal/intraarticular medications
• Bursoscopy

Question 83

What emergency treatment should be used where flexor tendon dysfunction is suspected?

Answer 83

Bandage limb and apply palmar or dorsal splint, or Kimsey splint

Question 84

What emergency treatment should be used where extensor tendon dysfunction is suspected?

Answer 84

Bandage and dorsal splint

Question 85

Outline the emergency treatment of all tendon/ligament injuries

Answer 85

• Stabilise limb, restore biomechanical function by creating alignment of single bony column and reduce pressure on soft tissues
• Local wound care
• Antibiotics and anti-inflammatories

Question 86

Briefly describe the characteristics of healed tendons

Answer 86

• Stiffer than normal tendons as tendons fibrose rather than regenerate
• Less efficient energy store leading to poorer performance due to limited elastic energy storage

Question 87

Outline the acute phase treatment of tendon/ligament injury in the horse

Answer 87

• Physical therapy: cold, compression, rest
• Medical: NSAID analgesia e.g. phenylbutazone and anti-inflamm, steroids controversial (can be used short term to reduce initial inflammation)

Question 88

Outline the subacute phase treatment of tendon/ligament injury in the horse

Answer 88

• Fibroplasia phase
• Mobilisation: early and progressive, train tenocytes back to normality, passive manipulation if on box rest, mobilisation from 7-14 days onwards ideally
• Monitor with ultrasonography (CSA, fibre pattern)

Question 89

Outline the chronic phase treatment of tendon/ligament injury in the horse

Answer 89

• Remodelling
• Controlled ascending excercise
• Ultrasonographic monitoring

Question 90

Outline some examples of treatment options for tendinitis

Answer 90

• Stem cells (mesenchymal stem cells), must be used in acute phases
• Platelet rich plasma - provides biological scaffold as well as containing cytokines, proinflamm growth factors etc. that may promote healing

Question 91

Outline how tendonitis can be prevented

Answer 91

• Maximise quality of tendon prior to skeletal immaturity (tendon training of immature horses)
• Reduce degeneration after skeletal maturity (avoid tendon training)
• Reduce risk factors for tendonitis (decreased speed, fatigue, jumping, weight, improve ground surface, shoeing)
• Detect tendonitis early with ultrasound and structure training around this