Equine Diagnostic Imaging

Question 1

What is typically the first line of imaging in equine practice? What are 2 indications?

Answer 1

radiographs —> 2 views!

1. lameness localized to a specific region
2. boney abnormality suspected

Question 2

What is view of the front limb is seen?

a. lateromedial
b. mediolateral
c. dorsopalmar
d. DMPLO

Answer 2

A

Question 3

How is the horse positioned for radiographs? How are they done?

Answer 3

horse must stand squarely on the limb being radiographed

keep the plate medial or palmar/plantar —> some danger to the plate holder

Question 4

Where are markers placed on the radiograph plate? When is it especially important to label hindlimb vs forelimb?

Answer 4

lateral or dorsal

if the hock or carpus is not in view —> fetlock

Question 5

Which joint is the following radiograph diagnostic for?

a. coffin (DIP)
b. pastern (PIP)
c. fetlock (MCP)

Answer 5

B

Question 6

Label the joints in the following radiograph.

Answer 6

top to bottom

• fetlock
• pastern
• coffin

Question 7

Which of the 2 radiographs is considered good quality?

Answer 7

L —> straight joint space

• R has staggered condyles and oblique sesamoids, making assessment difficult

Question 8

What view is seen in this radiograph?

a. DLPMO
b. DP
c. DMPLO
d. LM

Answer 8

D

Question 9

Is this image diagnostic quality?

Answer 9

yes - straight joint spaces and superimposed bones

Question 10

Which image is of diagnostic quality?

Answer 10

L

• R is more oblique - medial talus seen, splint bones are rotated

Question 11

Orthogonal views of hindlimb:

Answer 11

Question 12

What view is this?

Answer 12

LM

Question 13

What view is this?

Answer 13

DP

Question 14

What view is this?

Answer 14

DMPLO

• highlights DL and PM

Question 15

What view is this?

Answer 15

DLPMO

• highlights DM and PL

Question 16

What view is this?

Answer 16

DLPMO

• accessory carpal bone is highlights (lateral) and palmar
• L = offset splint bone
• DM + PL

Question 17

What view is this?

Answer 17

DMPLO

• can’t see accessory carpal bone
• no L for the splint bone

Question 18

What views are these?

Answer 18

• LM
• DP

Question 19

What are 2 options if there is no radiologic abnormalities, but a bone injury is suspected?

Answer 19

1. wait 10 days for callus formation and resorption at the fracture line
2. additional imaging - nuclear scintigraphy, MRI, CT (not under GA)

Question 20

How does ultrasonography work?

Answer 20

high-frequency sound waves penetrate tissue and bounce back to transducer, resulting in denser objects appearing brighter

• crystals in transducer convert sound waves to electric current and computer in ultrasound machine converts electrical current into an image

Question 21

How is echogenicity described?

Answer 21

relative to other objects

• anechoic = black, echolucent
• hypoechoic = grey
• hyperechoic = white

Question 22

What are the 2 major indications for performing ultrasounds for musculoskeletal disease?

Answer 22

1. image soft tissues - tendons, ligaments, joints
2. image bone surface

Question 23

How is the horse prepared before doing an ultrasound of their limb? What can be used to provide better detail?

Answer 23

• clip hair
• clean with scrub and alcohol
• apply gel to 8-15 mHz transducer (higher, less distance)

Standoff - gel square used in areas with less soft tissue, like tendons

Question 24

With INCREASING MHz of a transducer, how does the image change?

a. increase depth
b. decrease depth
c. increase resolution
d. decrease resolution

Answer 24

B and C

Question 25

What approach is used for ultrasounding equine limbs? What should be done if unsure of findings?

Answer 25

block limb into well-defined zones from 1 to 3 (A, B) based on distance (cm) from accessory carpal bone or point of hock

Question 26

What is seen in this ultrasound on the equine limb?

Answer 26

core lesion of hypoechogenicity, likely fluid, edema, or inflammation

Question 27

What is occuring in the ultrasound to the right compared to the left?

Answer 27

diffuse hypoechoic lesion increases in size of structure, correlated with increased fluid

• typically fully observed with transverse imaging

Question 28

How is the longitudinal view on ultrasound used to evaluate the equine limb?

Answer 28

transducer runs parallel with muscle fibers —> evaluates fiber alignment and echogenicity

Question 29

How are lesions seen on ultrasound properly appreciated?

Answer 29

two views —> longitudinal (parallel) AND transverse (perpendicular)

Question 30

What is occurring in these images?

Answer 30

• apical sesamoid fracture
• disruption of suspensory ligament

two modalities > one

Question 31

What are 5 indications for performing nuclear scintigtaphy?

Answer 31

1. fail to localize lameness with blocks
2. localize lameness, but no lesions on radiographs or U/S
3. multiple limb lameness
4. upper limb or axial musculoskeletal issue - not easily accessible radiographically and hard to block
5. suspect fracture not found on radiographs

used when its hard to walk the horse or radiograph

Question 32

How does nuclear scintigraphy work?

Answer 32

• inject a drug bound to rapidly decaying technetium-99m
• drug (methylene diphosphonate) will have a propensity for hydroxyapatite in bone, which is formed in areas of ACTIVE bone formation, proportional to bone resorption

gamma camera is able to detect decay of atom in areas of increased uptake (injuries!)

Question 33

Nuclear scintigraphy, scapula:

Answer 33

compare to contralateral structure!

Question 34

What are 4 indications for CT?

Answer 34

1. detailed evaluation of bone (limited soft tissue detail, requires injection of contrast)
2. fracture repair planning
3. image navicular apparatus
4. imaging of the head

Question 35

How does CT work?

Answer 35

• X-ray tube in a circle rotates and detects intensity of rebounding X-rays
• computer reconstructs the data to make a “slice” image and software programs reconstruct slices into 3D images with a continuous view

Question 36

CT, carpus:

Answer 36

multiple carpal fractures not as easily seen on radiographs

Question 37

How are horses prepared for CT imaging? What 3 locations is imaging limited to?

Answer 37

anesthetized

1. distal limb
2. carpus/tarsus
3. head - standing!

Question 38

CT, navicular bone:

Answer 38

lesion at insertion of lateral collateral ligament

Question 39

What is the main indication for MRI? What limitations exist?

Answer 39

image soft tissue and bone lesions where ultrasound is not possible (foot)

same at CT - distal limb, carpus, tarsus, head –> must fit in magnet

Question 40

How does MRI work?

Answer 40

• hydrogen protons in tissue are excited by magnet in the machine using radiofrequency
• as the pulse is removes, the protons relax and emit signals
• protons in different tissues relax differently + can use different pulse/relaxation types to create greater contrast and focus on different structures (bone vs. soft tissue)

Question 41

What is seen in this MRI?

Answer 41

navicular cyst

Question 42

MRI, foot:

Answer 42

core lesion in the DDF tendon

Question 43

MRI, foot:

Answer 43

navicular suspensory ligament desmitis

Question 44

What is likely happening in this MRI?

Answer 44

adhesion between navicular bone and DDFT

Question 45

What imaging modalities have been used?

Answer 45

• L = CT, bone is hyperechoic
• R = MRI, bone is hypoechoic, tendons and soft tissue are brighter

Question 46

Imaging modalities:

Answer 46