Principles of ESF Application

Question 1

When applying an ESF - What diameter should be pre-drilled?

Answer 1

Predrilling with a drill of diameter 0.1 mm less than the pin core diameter

Question 2

What speed are pins inserted?

Answer 2

A slow (<140 rpm) power drill

Question 3

What MUST be used during drilling?

Answer 3

Saline cooling

Question 4

What interface is an important concept in application of an ESF?

Answer 4

Pin-bone interface

Question 5

What is the consequence of excessive stress at the pin-bone interface?

Answer 5

Bone resorption; resulting in premature pin loosening

Question 6

What factors does stress at the pin-bone interface depend on? (4)

Answer 6

Degree of load sharing between the bone and the frame

Number and size of fixation pins

Pin design

Spacing and angle of the pins in relation to the fracture site.

Question 7

The stiffness of the overall construct depends on some factors. Have a look at the sentences below and select the correct ones.

A) Increasing pin number (up to four pins per bone fragment) doesn’t change the frame stiffness.

B) Increasing pin number (up to four pins per bone fragment) increases frame stiffness.

C) Pin stiffness is related to the radius to the fourth power, and thus a small increase in diameter markedly increases stiffness.

D) Pin stiffness is related to the radius to the fourth power, and thus a small increase in diameter markedly decreases stiffness.

Answer 7

B) Increasing pin number (up to four pins per bone fragment) increases frame stiffness.

C) Pin stiffness is related to the radius to the fourth power, and thus a small increase in diameter markedly increases stiffness.

Question 8

What are “safe corridors”

Answer 8

They are considered longitudinal regions overlying bone that do not contain important neurovascular or musculotendinous structures.

Question 9

What are “hazardous corridors”

Answer 9

are those containing musculotendinous units but no important neurovascular structures

Question 10

How should the patient be position for ESF placement if the fracture is on the proximal femur?

Answer 10

Lateral

Question 11

How should the patient be position for ESF placement if the fracture is on the crus?

Answer 11

Dorsal

Question 12

How should the patient be position for ESF placement if the fracture is on the distal humerus?

Answer 12

Dorsal

Question 13

How should the patient be position for ESF placement if the fracture is on the femur including distal femur?

Answer 13

Dorsal

Question 14

How should the patient be position for ESF placement if the fracture is on the antebrachium?

Answer 14

Dorsal

Question 15

How should the patient be position for ESF placement if the fracture is on the Proximal humerus?

Answer 15

Lateral

Question 16

What are the advantages to suspending the affected limb? (4)

Answer 16

Avoid large muscle masses/vessels/nerves

Aids in fracture reduction and limb alignment

Facilitates limb preparation

Allows 360° access to the limb, facilitating pin placement.

Question 17

When choosing pin location:
A) Soft tissue area?
B) What size incisions created through intact skin?
C) Soft tissue positioning?

Answer 17

A) minimal
B) Small (approx 1cm)
C) Ensure current anatomical position

Question 18

When choosing pin location:
A) With open/contaminated wounds?
B) How to prevent soft tissue damage during drilling/placement?
C) Which “areas” should be used where poss?

Answer 18

A) NOT to be used
B) Tissue protectors
C) Safe corridors

Question 19

Pins can, if required, be placed within the surgical incision, what are needed to allow wound apposition without tension?

Answer 19

Perpendicular incisions

Question 20

If an unsafe corridor is unavoidable - what should be considered?

Answer 20

Small surgical approach

Question 21

Accessing the bone
A) What should be used to bluntly dissect soft tissue from the tract prior to drilling?
B) What can Holding the haemostats open against the bone aid?

Answer 21

A) Haemostats
B) Aid correct position for drilling

Question 22

Accessing the bone:
A) What is used to centre a pin within the clamp + protect soft tissue?
B) What can be used to assess bone position? (2)

Answer 22

A) Drill guide
B) Needle or k wire

Question 23

Drilling:
A) What speed for pre drill?
B) What size drill bit?
C) What MUST be used during drilling?

Answer 23

A) Full speed
B) 0.1mm smaller than pin core diameter
C) Fluid irrigation

Question 24

Drilling:
A) What speed are pins placed at?
B) What happens if you reverse a pin?

Answer 24

A) Low speed <140 rpm
B) Weakens pin-bone interface

Question 25

Pin placement:
A) With respect to the fracture site, what order are they placed in?
B) Where are the first 2 pins placed to establish the limb and frame alignment and helps to stabilise the fracture reduction?

Answer 25

A) far- far, near-near
B) First 2 pins remote from # site

Question 26

Pin placement:
A) Following on from the first 2 pins, where are the next 2 placed and what is the role of these?

Answer 26

Placement of the two pins nearest to the fracture then further stabilises the major fragments against rotation.

Question 27

Pin placement:
A) Where in the bone?
B) How are they spread?
C) How many cortices should be engaged?

Answer 27

A) Central
B) Evenly
C) 2

Question 28

For a correct pin positioning:

A) Three or four pins should be placed in each major fragment, absolute minimum of two pins in each fragment.

B) Place a minimum of 60% of bone diameter away from the fracture line.

C) Select pin diameter to be 50% of bone diameter.

D) Positioning of pins on alternate sides of the connecting bar results in a decrease in resistance to bending and axial compression.

Answer 28

A) Three or four pins should be placed in each major fragment, absolute minimum of two pins in each fragment.

Question 29

How far away should a pin be placed away from # line?

Answer 29

50%

Question 30

What is the pin diameter compared to bone?

Answer 30

20-30%

Question 31

What does positioning pins on alternative sides of connecting bar result in?

Answer 31

Increase in resistance to bending + axial compression

Question 32

Clamps:
A) Where are they placed compared to connecting bar?
B) How far away from skin surface and why?

Answer 32

A) Inside of
B) 10mm, allow for soft tissue swelling

Question 33

What should be added with fractures with significant bone defects where prolonged healing is to be expected.?

Answer 33

Bone graft

Question 34

Additional side bars can be used to link multiple frames (e.g. a second parallel bar, or “A)” applied at the same side of the fracture or “B)”, crossing the fracture site. This C) construct stiffness in the early stages of fracture healing and allows easy D) as healing progresses.

Answer 34

A) Articulation
B) Diagonal
C) Increases
D) Downstaging

Question 35

Using IM pins with ESF:
A) What does it improve resistance to?
B) Type I fixators combined with an intramedullary pin are mechanically equivalent to..?

Answer 35

A) Bending
B) Type II constructs utilising equivalent numbers of transcortical pins.

Question 36

IM pins with ESF:
A) What pin diameter of medullary canal diameter?
B) How to improve construct rigidity, prevent pin migration and facilitate removal?

Answer 36

A) 35-40%
B) Tied-in

Question 37

What post op bandaging should be used after ESF; including time frame?

Answer 37

Entire limb first 7 days (include distal limb to reduce swelling risk).
Frame only after 7 days.

Question 37

What should be used directly post op around pins/on the skin to control movement/inflamm/swelling?

Answer 37

Sterile gauze/allervyn

Question 38

When do change bandages after ESF?

Answer 38

Day after surgery.

After 3-7 days (healthy tissue).

Daily (unhealthy tissue).

Question 39

What aftercare is needed daily? (2) by who?

Answer 39

BY OWNER:
Clean surrounding skin with dilute chlorhexidine (avoid removing developing granulation tissue immediately adjacent to the pins)

Instruct owners on signs of possible complications.

Question 40

How often for re-checks at vet?

Answer 40

Weekly

Question 41

When should post operative radiographs be performed?
Adult vs young

Answer 41

Adult: 6-8 weeks, and a further recheck after 12-16 weeks,
Younger animals, earlier timing of recheck radiographs 3-4 weeks postoperatively may be indicated.

Question 42

As # healing progresses what should be considered with the ESF?

Answer 42

Downstaging

Question 43

What does downstaging allow?

Answer 43

Increase loading and stimulate osteogenesis

Question 44

When is an ESF removed?

Answer 44

• Bone healing on xrays
• Manual palp of # site is possible after opening clamps and removing side bar

Question 45

Steps to remove an ESF (6)

Answer 45

• Deep sedation or short general anaesthesia.
• Removal of clamps and connecting bars.
• Cut full pins close to the skin surface on one side to minimise the length of contaminated pin pulled through the bone during removal.
• Clean and disinfect pins.
• Remove pins with Jacob’s chuck.
• Allow pin holes to heal by second intention.

Question 46

Following ESF removal how long to bandage for?

Answer 46

24-72 hr

Question 47

How long to lead walk for after ESF removal?

Answer 47

3-4 weeks