Bone Healing Flashcards
Field and Ruthenbeck, VCOT, 2018:
Pattern of optical density measures during fracture healing?
Correlation between optical density measures and the qualitative measure of bridging callus and the radiographic union score for tibial fractures (RUST)?
Field and Ruthenbeck, VCOT, 2018:
Optical density measures decreased through 4 weeks post-op (resorptive phase) and then gradually and consistently increased at 8-16 weeks post-op
Optical density measures showed strong correlation with measures of bridging callus and RUST
Yeh JAVMA 2021
Time to fixator removal in cats
Factors associated with PO complications
Time to fixator removal in cats
-8 weeks
Factors associated with PO complications
-BW
-tibial fracture
-use of type 2 fix
-use of destabilization
Guidelines for using locking plates
- Spanning long segments of bone (3x the length of fractured segments)
- Limiting screw-to-hole ratio to less than 0.5
- Limiting distance between plate and bone to 2 mm
- Leaving 2-3 screw holes empty over the fracture
How to make a plate construct stiffer
- Larger plate
- Shortening working length (placing screws closer to fracture ends)
- Adding implants (IM pin, second plate)
Construct stiffness is maximized if screws are placed where?
At the end of the plate and near the fracture
There is little mechanical advantage to placing more than _____ screws per fracture segment with respect to _________
3
Axial stiffness
Placing a ______ screw per fragment increases ____________
4th
Torsional rigidity
Screws should be omitted from holes closest to fracture gap in what size gap
1mm
Star drives allows for how much greater torque than hex heads
65%
a) SOP
b) ALPS
c) Fixin
d) PAX
Bridging plate
Plate span ratio
-comminuted
-simple fractures
Screw density
Plan span ratio
-comminuted 2-3
-simple fractures 8-10
Screw density
0.5 to 0.4
The addition of an IM pin to a bridging plate effect
Reduces strain = Fatigue life of plate increased
Improves overall stiffness = risk of plastic deformation decreases
Minimal screw for plate rod
One bicortical
One monocortical
Disadvantages of Ex Fix
-Increase risk for infection
-external and eccentric placement of fixation = large bending moment on fixation pins
Type: Ia
Pins: Half
Connecting Bars: 1
Pin Geometry:
-Unilateral uniplanar
Type: Ib
Pins: Half
Connecting Bars: 2
Pin Geometry:
-unilateral biplanar
Type: I-II
Pins: Half and 1 full
Connecting Bars: 2
Pin Geometry:
-bilateral uniplanar
Type: II modified
Pins: Half and 2 full
Connecting Bars: 2
Pin Geometry:
-Bilateral uniplanar
Type: II
Pins: Full
Connecting Bars: 2
Pin Geometry:
-Bilateral uniplanar
Type: III modified
Pins: Half and full
Connecting Bars: 3
Pin Geometry:
-Bilateral biplanar
Strategies to Preserve the Pin-Bone Interface of ESF
1) Increase the strength of the pin-bone interface junction and pin-pull out strength
2) Decrease the load and bending forces per pin
Fracture pattern
Type of mechanical loading
Transverse fracture
Tensile loading
Fracture pattern
Mechanical loading
Oblique fracture
Compressive loading
Fracture pattern
Mechanical loading
Spiral fracture
Torsional loading
Fracture pattern
Mechanical loading
Transverse fracture
Bending forces
Small butterfly comminution
Fracture pattern
Mechanical loading
Comminuted fracture
Combined loads
