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The FurlongŪ H-A.C. Total Knee Replacement
In 1995 the Furlong® range of prostheses was expanded to incorporate
total knee replacements. The H-A.C. Total Knee follows on from the success
of the Furlong® H-A.C. Total Hip. The advanced Supravit® H-A.C.
coating coalesces the implant with the host bone for an unparalleled
physiological bond.
A prospective comparative study indicates excellent clinical results
at five years. The cemented T.K.R. expands the range of surgical options,
drawing on over 30 years experience with cemented implants. It too has
shown excellent results since its inception.
The Furlong® T.K.R. system is fully modular and both coated and
cemented varients are fully compatible with each other. Both systems
utilise the same compact instrumentation set to produce consistent results.
This makes the Furlong® Total Knee Replacement a truly versatile
system, catering for a multitude of surgical requirements.
| Femoral Components |
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Supravit® H-A.C. coated and cemented
components available for a multitude of surgical options. |
| Cast Cobalt-chromium alloy for high
strength, proven wear resistance and biocompatibility. |
| J - shaped geometry reproduces the
anatomic joint kinematics. |
| Higher posterior condyles with smaller radii offer
improved range of movement in increased angles of flexion. |
| Flexion/extension gap
equivalence is preserved as both distal and posterior condyles are
of the same thickness. |
| Deeper, flared patellar
groove provides correct patellar tracking during flexion and extension.
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| Tibial Trays |
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Supravit® H-A.C. coated and cemented
trays available for a multitude of surgical options. |
| Titanium alloy for superior fatigue
strength and biocompatibility. |
| Tri-keel configuration with posterior
sweep to engage in best quality bone for good primary fixation.
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| Increased area of keel resists both
titling and rotation. |
| Keels have a distal double-taper to
resist descent. |
| Shape of tray offers enhanced bone
coverage. |
| Four anti-rotation pegs (H-A.C. version)
are strategically located in the densest cancellous bone to enhance
implant stability. |
| No base plate holes eliminating stress
raisers and precluding polyethylene migration. |
| Posterior slope of tibial surfaces
encourages femoral roll back and gives added flexion. |
| Five sizes of tray provide a comprehensive
range |
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| Tibial Inserts |
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Recent studies have shown heat pressed
ultra - high - molecular - weight - polyethylene (U.H.M.W.P.E.)
to be susceptible to subsurface fatigue defects, manifested as delamination
and surface pitting. In contrast all Furlong® inserts are CNC
machined to an extremely smooth surface finish for increased wear
resistance in preference to heat pressing. |
| Femoro-tibial articulation has a large
contact area achieved by flat-on-flat geometry leading to reduced
stress and decreased polyethylene wear. |
| Tibial inserts permit the interchangeability
of femoral and tibial implants providing a precise fit. |
| U.H.M.W.P inserts are secured by three
locking mechanisms. |
| Available in 8, 10, 12, 14 and 16mm
thicknesses. |
Anterior insertion of inserts simplifies
surgical technique.
Minimum thickness of 8mm to prevent creep. |
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| Patellar |
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Supravit® H-A.C. coated and cemented
components available for a multitude of surgical options. |
| Three-peg configuration ensures stable
fixation providing increased resistance to toggling and rotation,
without weakening the patella. |
| Curvature of patella closely follows
the femoral patellar groove, ensuring decreased stress and reduced
wear. |
| Constant patello-femoral radius ensures
smooth patellar tracking. |
| Comprehensive range of four sizes
for optimum bone converage. |
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