hyaluronic acid ha is a polymer found in synovial fluid. ha has viscoelastic properties. ha acts as...
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Hyaluronic Acid
HA is a polymer found in synovial fluid.
HA has viscoelastic properties. HA acts as a lubricant and a shock absorber.
Synovial Fluid Synovial Fluid is found in joints. It acts to lubricate and absorb shock in the joints.
This fluid is contained in the synovial cavity.
Hyaluronic Acid (HA) is a polymer found in synovial fluid, giving the fluid its viscoelastic properties.
Legend® is a commercial product containing 10.0 mL/mg HA and is used to treat lameness in horses.
Objective
To discover how adding Legend® to a horse’s synovial fluid affects its viscoelastic properties.
Basic Procedure
We wanted to find the effects of Legend® in three different samples of synovial fluid: a five day-old foal, a horse older than twenty, and a normal horse.
We began by testing pure synovial fluid samples on a rheometer. This way we could see any changes that would occur after we added the Legend®.
Vocabulary
Rheology: the study of the deformation of materials. Rheometer: Measures the deformation of materials. G’ modulus: represents the elastic properties of the
liquid in a dynamic test. G” modulus: represents the viscous properties of the
liquid in a dynamic test. Cross-over point: the point at which G’ and G”
intersect. This is where the dominant property changes from elastic to viscous or vice versa.
Viscosity: a liquid’s resistance to flow. Elasticity: the property of returning to an initial
form or state following deformation
Dynamic Testing
The rheometer oscillates the bottom plate against a 1º cone causing deformation in the sample.
This test measures the elastic and viscous moduli. When the graph shows the G” modulus above the G’ modulus, the fluid has more dominant viscous characteristics. When this is reversed, the fluid’s elastic properties are more dominant.
Steady State Testing
Under steady state testing, the rheometer performs several tests at increasing rates.
By spinning the plate against the cone in one direction, the viscosity of the synovial fluid is measured.
Testing first under a dynamic frequency sweep test and then a steady rate sweep test, we measured the viscoelastic properties of the different synovial fluids.
Next we tested a mixture of 30% Legend® and 70% synovial fluid by volume. We wanted to see how adding the Legend® altered the properties of the synovial fluid.
Old Horse Left Middle Carpal Dynamic TestsSample Taken 10/11/02
0.01
0.10
1.00
10.00
100.00
0.01 0.10 1.00 10.00 100.00
Frequency (Hz)
Mod
uli (
dyn/
cym
)
30% Legend byVolume G'30% Legend byVolume G"Pure Synovial Fluid G'
Pure Synovial Fluid G"
Old Horse Left Middle Carpal Steady Test Sample Taken 10/11/2002
0.10
1.00
10.00
0.10 1.00 10.00 100.00
Rate (s/1)
Vis
cosi
ty (P
)
30% Legend byVolume
Pure Synovial Fluid
5 Day-Old Foal Right Hock Steady Test Sample Taken 3/24/03
0.01
0.10
1.00
10.00
100.00
0.01 0.10 1.00 10.00 100.00
Rate (s/1)
Visc
osity
(P) 30% Legend by
Volume
Pure Synovial Fluid
5 Day-Old Foal Right Hock Dynamic Tests Sample Taken 3/24/03
0.10
1.00
10.00
100.00
0.01 0.10 1.00 10.00 100.00
Frequency (Hz)
Mod
uli (
dyn/
cym
)
30% Legend by VolumeG'
30% Legend by VolumeG"
Pure Synovial Fluid G'
Pure Synovial Fluid G"
Conclusion
We found that adding Legend® to the synovial fluid increases viscosity and elasticity.
Adding Legend® affected the two samples differently. We suspect that the discrepancies are due to the variations in age and conditions of the joint.
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