MAXLOCK EXTREME
™
™
Universal, MTP, TMT,
™
ORTHOLINK , & Y-Shaped Plates
SURGIC A L T ECHNIQUE
Contents
Surgical Techniques
Universal Plates
3
MTP Plates
7
TMT Plates
11
ORTHOLINK™ Plates
15
Y-Shaped Plates
19
Implants and Instruments
23
Proper surgical procedures and techniques are the responsibility of the medical professional. The following guidelines are
furnished for information purposes only. Each surgeon must evaluate the appropriateness of the procedures based on his or
her personal medical training and experience. Prior to use of the system, the surgeon should refer to the product package
insert for complete warnings, precautions, indications, contraindications and adverse effects. Package inserts are also
available by contacting Wright Medical.
Please contact your local Wright representative for product availability.
2
Surgical
Technique
Step 1
The surgical site is prepared and the fusion
or fracture site is reduced and temporarily
stabilized by the surgeon’s preferred technique.
Step 2
Choose an appropriately sized universal plate
based on size and type of indication. Care must
be taken not to scratch or notch the implants
throughout the procedure.
CAUTION: In pediatric patients, avoid crossing
the growth plate with any implants.
Step 3
If necessary, use the plate bending irons or
plate bending pliers to contour the plate to the
bone surface. When using the plate bending
irons, use your thumbs to apply pressure to the
top while pulling apart at the bottom. Use the
top slots to concave the plate and the bottom
slots to convex the plate. Each bend should be
in one direction only. Reverse or over bending
may cause reduced fatigue life. Avoid excessive
bending through the locking holes. If the plate
is contoured through the locking holes, a nonlocking screw is recommended to avoid crossthreading of the locking screw.
Step 4
The plate is placed with the two “ears” on
one side of the fracture/osteotomy and the
other two “ears” are placed on the opposite
side of the fracture. Note that when using the
plates with center slots, they may be placed on
either side of the fracture. The plate may be
temporarily held in place with standard plate
holding forceps, 1.1 mm k-wires (through k-wire
holes) or olive wires (through locking holes or
compression slots).
3
Step 5
Determine the appropriate size and type of
screw to be used.
The screw holes in the plates are compatible
with a variety of screw options. Non-locking
screw options include 2.7 mm, 3.5 mm, and 4.0
mm. Non-locking screws may be used in either
threaded holes or compression slots. Fixedangle locking screws are offered in 3.5 mm
diameter and may be used only in threaded
holes. 3.5 mm variable-angle locking screws
may also be used; however, the optional
variable screw caddy must be available at the
time of surgery. Reference the variable-angle
locking screw technique guide (MXE-801-016) if
variable-angle locking screws are desired. Screw
diameter is chosen based on indication and
surgeon preference; a combination of screws
may be used in the same plate.
Five drill bits are provided in the system: 1.9
mm (gold), 2.4 mm (magenta) and 2.7 mm
(aqua) diameters. The 1.9 mm bit is to be used
in conjunction with 2.7 mm screws, the 2.4 mm
bit is to be used in conjunction with the 3.5 mm
screws, and the 2.7 mm drill bit is to be used
in conjunction with the 4.0 mm screws. A 3.5
mm (double-banded magenta) and a 4.0 mm
(double-banded aqua) drill bit are also found in
the system and can be utilized for lagging the
3.5 mm and 4.0 mm screws.
Step 6
Note: Use only the screws and instruments
provided with the MAXLOCK™ EXTREME™
system with these plates.
When drilling for non-locking screws, use the
drill guide handle with the appropriate drill
guide tip. The drill guide tips are color-coded
to match the appropriate drill bit and screw
diameter. When drilling for a fixed-angle
locking screw, either the 2.4 mm Fixed Drill
Guide or the 2.4 mm Keyway Drill Guide should
be used. The fixed drill guide threads into the
locking hole to provide the proper angle for
drilling. To use the keyway drill guide, align the
lobes on the tip of the guide with the lobes in
the threaded hole. Press into the plate while
drilling to ensure proper alignment.
4
Step 7
Drill to the desired depth.
Note: Take care to not move the plate after
drilling for a locking hole in order to maintain
the proper pilot hole alignment and prevent
locking screw cross-threading.
Step 8
Use only the provided depth gauge to
determine screw length. For all screws used
throughout the procedure, verify the screw
length using the length gauge on the screw
caddy. Use the HEXSTAR™ driver to insert the
screw into the hole and drive the screw.
Note: The depth gauge reading corresponds to
the working length of the screw (from distal tip
to underneath the screw head).
Step 9
Non-locking screws placed in the compression
slots can be used to generate inter-fragmentary
compression in the direction of the slot. The
direction of the slot is indicated by an arrow on
the plate. In order to generate compression by
utilizing the compression slot, first fix the plate
on one side of the fusion site. This can be done
using a fixed-angle locking screw or a nonlocking screw with bicortical purchase through
a locking hole.
Step 10
Align the arrow on the offset drill guide tip with
the arrow on the plate and drill into the slot.
The drill hole should be located in the region of
the slot farthest away from the fusion site.
Note: If an offset drill guide is not available, use
the centered drill guide to drill a hole in the
region of the slot farthest away from the fusion
site, or at the tail end of the arrow.
5
Step 11
Insert a non-locking screw bi-cortically.
Note: If maximum compression is desired it is
advised to use a 4.0 mm screw.
Step 12
Tighten the screw into the slot to generate
compression.
Note: The amount of compression can be
modulated from 2 mm (maximum) to 0 mm by
drilling into a region of the slot closer to the
fusion slot. The slot may be utilized with no
compression if the non-locking screw is placed
in the neutral side of the slot (region closest to
the fusion site).
Step 13
When a lag technique is desired, use either the
3.5 mm drill bit (double-banded magenta) or
the 4.0 mm drill bit (double-banded aqua) with
the corresponding double-banded drill guide to
over-drill the gliding hole.
Note: Do not over-torque the screws.
Step 14
Verify correct placement of plate and screws
with fluoroscopy. Close soft tissues as required
by the operative procedure and surgeon
preferred technique.
6
Surgical technique
Step 1
Prepare the MTP joint for fusion using the
surgeon’s preferred technique. Care should
be taken to remove any excessive bony
prominences to avoid excessive dorsal flexion of
the fused joint.
Step 2
Select the appropriate MTP fusion plate.
Standard, Narrow and Revision plates are
available for right and left foot procedures. The
plates are pre-contoured to provide 10 degrees
of valgus and 5 degrees of dorsiflexion.
CAUTION: In pediatric patients, avoid crossing
the growth plate with any implants.
Step 3
If necessary, use the plate bending irons or
plate bending pliers to contour the plate to the
bone surface. When using the plate bending
irons, use your thumbs to apply pressure to the
top while pulling apart at the bottom. Use the
top slots to concave the plate and the bottom
slots to convex the plate. The plate bending
pliers may be used to adjust the “ears” of the
plate to better fit the bone surface. Each bend
should be in one direction only. Reverse or over
bending may cause reduced fatigue life. Avoid
excessive bending through the locking holes. If
a plate is contoured through the locking holes,
a non-locking screw is recommended to avoid
cross-threading of a locking screw.
7
Step 4
The plate may be provisionally fixed using the
included olive wires. Ideally, at least one wire
will be used on either side of the fusion site.
Step 5
Determine the appropriate size and type of
screw to be used.
The screw holes in the plates are compatible
with a variety of screw options. Non-locking
screw options include 2.7 mm, 3.5 mm, and 4.0
mm. Non-locking screws may be used in either
threaded holes or compression slots. Fixedangle locking screws are offered in 3.5 mm
diameter and may be used only in threaded
holes. 3.5 mm variable-angle locking screws
may also be used; however, the optional
variable screw caddy must be available at the
time of surgery. Reference the variable-angle
locking screw technique guide (MXE-801-016) if
variable-angle locking screws are desired. Screw
diameter is chosen based on indication and
surgeon preference; a combination of screws
may be used in the same plate.
Five drill bits are provided in the system: 1.9
mm (gold), 2.4 mm (magenta) and 2.7 mm
(aqua) diameters. The 1.9 mm bit is to be used
in conjunction with 2.7 mm screws, the 2.4 mm
bit is to be used in conjunction with the 3.5 mm
screws, and the 2.7 mm drill bit is to be used
in conjunction with the 4.0 mm screws. A 3.5
mm (double-banded magenta) and a 4.0 mm
(double-banded aqua) drill bit are also found in
the system and can be utilized for lagging the
3.5 mm and 4.0 mm screws.
Note: Use only the screws and instruments
provided with the MAXLOCK™ EXTREME™
system with these plates.
8
Step 6
When drilling for non-locking screws, use the
drill guide handle with the appropriate drill
guide tip. The drill guide tips are color-coded
to match the appropriate drill bit and screw
diameter. When drilling for a fixed-angle
locking screw, either the 2.4 mm Fixed Drill
Guide or the 2.4 mm Keyway Drill Guide should
be used. The fixed drill guide threads into the
locking hole to provide the proper angle for
drilling. To use the keyway drill guide, align the
lobes on the tip of the guide with the lobes in
the threaded hole. Press into the plate while
drilling to ensure proper alignment.
Step 7
Drill to the desired depth.
Note: Take care to not move the plate after
drilling for a locking hole in order to maintain
the proper pilot hole alignment and prevent
locking screw cross-threading.
Step 8
Use only the provided depth gauge to
determine screw length. For all screws used
throughout the procedure, verify the screw
length using the length gauge on the screw
caddy. Use the HEXSTAR™ driver to insert the
screw into the hole and drive the screw.
Note: The depth gauge reading corresponds to
the working length of the screw (from distal tip
to underneath the screw head).
Step 9
In order to generate compression across the
fusion site, place at least two screws in the
distal portion of the plate. Insert both screws
before fully tightening the first to avoid shifting
of the plate.
9
Step 10
Drill an appropriately sized pilot hole through
the proximal end of the compression slot
and remove any provisional fixation from the
proximal end of the plate.
Note: If compression is not desired, drill
the screw hole in at the distal end of the
compression slot, nearest to the fusion sight.
Step 11
Insert a non-locking screw into the pilot hole
in the slot.
Note: If maximum compression is desired it is
advised to use a 4.0 mm screw.
Step 12
Tighten the screw into the slot to generate
compression. As the screw is tightened, it will
drive compression toward the fusion site.
Step 13
Fill the remaining screw holes as desired.
Step 14
Verify correct placement of plate and screws
with fluoroscopy. Close soft tissues as required
by the operative procedure and surgeon
preferred technique.
10
Step 1
Prepare the TMT joint for fusion using the
surgeon’s preferred technique. Care should
be taken to remove any excessive bony
prominences.
Step 2
Choose the appropriately sized TMT plate. The
plates are available in flat/contoured, small/
standard, and right/left configurations.
CAUTION: In pediatric patients, avoid crossing
the growth plate with any implants.
Step 3
If necessary, use the plate bending pliers to
contour the plate to the bone surface. Each
bend should be in one direction only. Reverse
or over bending may cause reduced fatigue
life. Avoid excessive bending through the
locking holes. If a plate is contoured through
the locking holes, a non-locking screw is
recommended to avoid cross-threading of a
locking screw.
Step 4
Place the plate over the TMT joints with
the compression slots located distally. Fix
the plate with an olive wire in one of the
compression slots.
11
Step 5
Determine the appropriate size and type of
screw to be used.
The screw holes in the plates are compatible
with a variety of screw options. Non-locking
screw options include 2.7 mm, 3.5 mm, and
4.0 mm. Non-locking screws may be used in
either threaded holes or compression slots.
Fixed-angle locking screws are offered in 3.5
mm diameter and may be used only in threaded
holes. 3.5 mm variable-angle locking screws
may also be used; however, the optional
variable screw caddy must be available at the
time of surgery. Reference the variable-angle
locking screw technique guide (MXE-801-016) if
variable-angle locking screws are desired. Screw
diameter is chosen based on indication and
surgeon preference; a combination of screws
may be used in the same plate.
Five drill bits are provided in the system: 1.9
mm (gold), 2.4 mm (magenta) and 2.7 mm
(aqua) diameters. The 1.9 mm bit is to be used
in conjunction with 2.7 mm screws, the 2.4 mm
bit is to be used in conjunction with the 3.5 mm
screws, and the 2.7 mm drill bit is to be used
in conjunction with the 4.0 mm screws. A 3.5
mm (double-banded magenta) and a 4.0 mm
(double-banded aqua) drill bit are also found in
the system and can be utilized for lagging the
3.5 mm and 4.0 mm screws.
Note: Use only the screws and instruments
provided with the MAXLOCK™ EXTREME™ system
with these plates.
Step 6
When drilling for non-locking screws, use the
drill guide handle with the appropriate drill
guide tip. The drill guide tips are color-coded
to match the appropriate drill bit and screw
diameter. When drilling for a fixed-angle
locking screw, either the 2.4 mm Fixed Drill
Guide or the 2.4 mm Keyway Drill Guide should
be used. The fixed drill guide threads into the
locking hole to provide the proper angle for
drilling. To use the keyway drill guide, align the
lobes on the tip of the guide with the lobes in
the threaded hole. Press into the plate while
drilling to ensure
proper alignment.
12
Step 7
Drill to the desired depth in a proximal hole.
Note: Take care to not move the plate after
drilling for a locking hole in order to maintain the
proper pilot hole alignment and prevent locking
screw cross-threading.
Step 8
Use only the provided depth gauge to
determine screw length. For all screws used
throughout the procedure, verify the screw
length using the length gauge on the screw
caddy. Use the HEXSTAR™ driver to insert the
screw into the hole and drive the screw.
Note: The depth gauge reading corresponds to
the working length of the screw (from distal tip
to underneath the screw head).
Step 9
Repeat Steps 7-8 for the other proximal hole.
Note: Insert both screws before fully tightening
the first to avoid shifting of the plate.
Step 10
In order to generate compression across the
fusion site, remove the olive wire and any other
provisional fixation from the plate. Drill the
appropriately sized pilot hole at the distal end
of the compression slot.
Note: If compression is not desired, drill the
screw hole in at the proximal end of the
compression slot.
13
Step 11
Insert a non-locking screw into the pilot hole in
the slot. As the screw is tightened it will drive
compression toward the fusion site.
Note: If maximum compression is desired it is
advised to use a 4.0 mm screw.
Step 12
Repeat Step 11 for the second compression slot.
Step 13
Verify correct placement of plate and screws
with fluoroscopy. Close soft tissues as required
by the operative procedure and surgeon
preferred technique.
14
Step 1
The surgical site is prepared and the fusion
or fracture site is reduced and temporarily
stabilized by the surgeon’s preferred technique.
Step 2
Select the appropriate plate to ensure the holes
on the plate span the fracture or fixation site.
Five plate sizes are available: Short, Standard,
Long, Three-hole and Standard Locking.
CAUTION: In pediatric patients, avoid crossing
the growth plate with any implants.
Step 3
If necessary, use the plate bending pliers to
contour the plate to the bone surface. Each
bend should be in one direction only. Reverse
or over bending may cause reduced fatigue
life. Avoid excessive bending through the
locking holes. If a plate is contoured through
the locking holes, a non-locking screw is
recommended to avoid cross-threading of a
locking screw.
Step 4
The plate may be temporarily held in place
using the included olive wires.
15
Step 5
Determine the appropriate size and type of
screw to be used.
The screw holes in the plates are compatible
with a variety of screw options. Non-locking
screw options include 2.7 mm, 3.5 mm, and
4.0 mm. Non-locking screws may be used in
either threaded holes or compression slots.
Fixed-angle locking screws are offered in 3.5
mm diameter and may be used only in threaded
holes. 3.5 mm variable-angle locking screws
may also be used; however, the optional
variable screw caddy must be available at the
time of surgery. Reference the variable-angle
locking screw technique guide (MXE-801-016) if
variable-angle locking screws are desired. Screw
diameter is chosen based on indication and
surgeon preference; a combination of screws
may be used in the same plate.
Five drill bits are provided in the system: 1.9
mm (gold), 2.4 mm (magenta) and 2.7 mm
(aqua) diameters. The 1.9 mm bit is to be used
in conjunction with 2.7 mm screws, the 2.4 mm
bit is to be used in conjunction with the 3.5 mm
screws, and the 2.7 mm drill bit is to be used in
conjunction with the 4.0 mm screws. A 3.5 mm
(double-banded magenta) and a
4.0 mm (double-banded aqua) drill bit are also
found in the system and can be utilized for
lagging the 3.5 mm and 4.0 mm screws.
Note: Use only the screws and instruments
provided with the MAXLOCK™ EXTREME™ system
with these plates.
Step 6
When drilling for non-locking screws, use the
drill guide handle with the appropriate drill
guide tip. The drill guide tips are color-coded
to match the appropriate drill bit and screw
diameter. When drilling for a fixed-angle
locking screw, either the 2.4 mm Fixed Drill
Guide or the 2.4 mm Keyway Drill Guide should
be used. The fixed drill guide threads into the
locking hole to provide the proper angle for
drilling. To use the keyway drill guide, align the
lobes on the tip of the guide with the lobes in
the threaded hole. Press into the plate while
drilling to ensure proper alignment.
16
Step 7
In order to generate compression across the
fusion site, first fix the plate on one side of
the fusion site. This can be done using a 3.5
mm fixed-angle locking screw. Drill to the
desired depth.
Note: Take care to not move the plate after
drilling for a locking hole in order to maintain the
proper pilot hole alignment and prevent locking
screw cross-threading.
Step 8
Use only the provided depth gauge to
determine screw length. For all screws used
throughout the procedure, verify the screw
length using the length gauge on the screw
caddy. Use the HEXSTAR™ driver to insert the
screw into the hole and drive the screw.
Note: The depth gauge reading corresponds to
the working length of the screw (from distal tip
to underneath the screw head).
Step 9
Remove any provisional fixation from the plate
and drill the appropriate pilot hole at the end
of the compression slot farthest away from the
fusion or fracture.
Note: If compression is not desired, drill the
screw hole in the area of the slot closest to the
fusion or fracture site.
Step 10
Insert a non-locking screw bi-cortically.
Note: If maximum compression is desired it is
advised to use a 4.0 mm screw.
17
Step 11
Tighten the screw into the slot to generate
compression.
Note: Do not over-torque the screws.
Step 12
Verify correct placement of plate and screws
with fluoroscopy. Close soft tissues as required
by the operative procedure and surgeon
preferred technique.
18
Step 1
The surgical site is prepared and the fusion
or fracture site is reduced and temporarily
stabilized by the surgeon’s preferred technique.
Step 2
Select the desired Y-plate from the set. Plates
are offered in Alpha and Beta designations.
CAUTION: In pediatric patients, avoid crossing
the growth plate with any implants.
Step 3
If necessary, use the plate bending irons or
plate bending pliers to contour the plate to the
bone surface. When using the plate bending
irons, use your thumbs to apply pressure to the
top while pulling apart at the bottom. Use the
top slots to concave the plate and the bottom
slots to convex the plate. Each bend should be
in one direction only. Reverse or over bending
may cause reduced fatigue life. Avoid excessive
bending through the locking holes. If a plate is
contoured through the locking holes, a nonlocking screw is recommended to avoid crossthreading of a locking screw.
Step 4
The plate may be temporarily held in place
using the included olive wires.
19
Step 5
Determine the appropriate size and type of
screw to be used.
The screw holes in the plates are compatible
with a variety of screw options. Non-locking
screw options include 2.7 mm, 3.5 mm, and
4.0 mm. Non-locking screws may be used in
either threaded holes or compression slots.
Fixed-angle locking screws are offered in 3.5
mm diameter and may be used only in threaded
holes. 3.5 mm variable-angle locking screws
may also be used; however, the optional
variable screw caddy must be available at the
time of surgery. Reference the variable-angle
locking screw technique guide (MXE-801-016) if
variable-angle locking screws are desired. Screw
diameter is chosen based on indication and
surgeon preference; a combination of screws
may be used in the same plate.
Five drill bits are provided in the system: 1.9
mm (gold), 2.4 mm (magenta) and 2.7 mm
(aqua) diameters. The 1.9 mm bit is to be used
in conjunction with 2.7 mm screws, the 2.4 mm
bit is to be used in conjunction with the 3.5 mm
screws, and the 2.7 mm drill bit is to be used in
conjunction with the 4.0 mm screws. A 3.5 mm
(double-banded magenta) and a
4.0 mm (double-banded aqua) drill bit are also
found in the system and can be utilized for
lagging the 3.5 mm and 4.0 mm screws.
Note: Use only the screws and instruments
provided with the MAXLOCK™ EXTREME™
system with these plates.
Step 6
When drilling for non-locking screws, use the
drill guide handle with the appropriate drill
guide tip. The drill guide tips are color-coded
to match the appropriate drill bit and screw
diameter. When drilling for a fixed-angle
locking screw, either the 2.4 mm Fixed Drill
Guide or the 2.4 mm Keyway Drill Guide should
be used. The fixed drill guide threads into the
locking hole to provide the proper angle for
drilling. To use the keyway drill guide, align the
lobes on the tip of the guide with the lobes in
the threaded hole. Press into the plate while
drilling to ensure proper alignment.
20
Step 7
In order to generate compression across the
fusion site, first fix the plate by using two screws
in the “ears” of the plate.
Note: Take care to not move the plate after
drilling for a locking hole in order to maintain
the proper pilot hole alignment and prevent
locking screw cross-threading.
Step 8
Drill to the desired depth. Use only the provided
depth gauge to determine screw length. For all
screws used throughout the procedure, verify
the screw length using the length gauge on the
screw caddy. Use the HEXSTAR™ driver to insert
the screw into the hole and drive the screw.
Insert both screws before fully tightening the
first to avoid shifting of the plate.
Note: The depth gauge reading corresponds to
the working length of the screw (from distal tip
to underneath the screw head).
Step 9
Remove any provisional fixation from the plate
and drill the appropriate pilot hole at the end of
the compression slot farthest away from the
fusion or fracture.
Note: If compression is not desired, drill the
screw hole in the area of the slot closest to the
fusion or fracture site.
Step 10
Insert a non-locking screw bi-cortically.
Note: If maximum compression is desired it is
advised to use a 4.0 mm screw.
21
Step 11
Tighten the screw into the slot to generate
compression.
Note: Do not over-torque the screws.
Step 12
Verify correct placement of plate and screws
with fluoroscopy. Close soft tissues as required by
the operative procedure and surgeon preferred
technique.
22
Ordering
Information
Implants and Instruments
PLATES
Universal Plates
Description
Part #
Slotless Alpha Plate
MXL-002-0A
Slotless Beta Plate
MXL-002-0B
1-Hole Alpha Plate
MXL-002-1A
1-Hole Beta Plate
MXL-002-1B
2-Hole Alpha Plate
MXL-002-2A
2-Hole Beta Plate
MXL-002-2B
3-Hole Alpha Plate
MXL-002-3A
3-Hole Beta Plate
MXL-002-3B
4-Hole Straight Plate
MXL-002-4
4-Hole Alpha Plate
MXL-002-4A
4-Hole Beta Plate
MXL-002-4B
6-Hole Straight Plate
MXL-002-6
7-Hole Alpha Plate
MXL-002-8A
8-Hole Straight Plate
MXL-002-8
10-Hole Alpha Plate
MXL-002-10A
MTP Plates
Description
Part #
Narrow Left Plate
MTP-002-SLN
Standard Left Plate
MTP-002-SL
Revision Left Plate
MTP-002-RL
Narrow Right Plate
MTP-002-SRN
Standard Right Plate
MTP-002-SR
Revision Right Plate
MTP-002-RR
TMT Plates
Description
Part #
1-2 Small Left Plate
TMT-002-12SL
1-2 Small Right Plate
TMT-002-12SR
1-2 Standard Left Plate
TMT-002-12ML
1-2 Standard Right Plate
TMT-002-12MR
2-3 Small Left Plate
TMT-002-23SL
2-3 Small Right Plate
TMT-002-23SR
2-3 Standard Left Plate
TMT-002-23ML
2-3 Standard Right Plate
TMT-002-23MR
23
PLATES
ORTHOLINK™ Plates
Description
Part #
Small Plate
MFT-002-PS
2 Hole Locking Plate
MFT-002-PMLKG
Standard Plate
MFT-002-PM
Large Plate
MFT-002-PL
3-Hole Standard Plate
MFT-002-PMX
Y-Plates
24
Description
Part #
Y-Plate
MFT-002-Y
Y-Plate Beta
MFT-002-YB
Olive Wire
MFT-040
ø1.1 mm K-Wire
MFT-040-11-SS
SCREWS
2.7 mm Non-Locking Screws
Description
Part #
ø2.7 × 8 mm Non-locking Screw
MFT-011-27-08
ø2.7 × 10 mm Non-locking Screw
MFT-011-27-10
ø2.7 × 12 mm Non-locking Screw
MFT-011-27-12
ø2.7 × 14 mm Non-locking Screw
MFT-011-27-14
ø2.7 × 16 mm Non-locking Screw
MFT-011-27-16
ø2.7 × 18 mm Non-locking Screw
MFT-011-27-18
ø2.7 × 20 mm Non-locking Screw
MFT-011-27-20
ø2.7 × 22 mm Non-locking Screw
MFT-011-27-22
ø2.7 × 24 mm Non-locking Screw
MFT-011-27-24
ø2.7 × 26 mm Non-locking Screw
MFT-011-27-26
ø2.7 × 28 mm Non-locking Screw
MFT-011-27-28
ø2.7 × 30 mm Non-locking Screw
MFT-011-27-30
3.5 mm Non-Locking Screws
Description
Part #
ø3.5 × 8 mm Non-locking Screw
MFT-011-35-08
ø3.5 × 10 mm Non-locking Screw
MFT-011-35-10
ø3.5 × 12 mm Non-locking Screw
MFT-011-35-12
ø3.5 × 14 mm Non-locking Screw
MFT-011-35-14
ø3.5 × 16 mm Non-locking Screw
MFT-011-35-16
ø3.5 × 18 mm Non-locking Screw
MFT-011-35-18
ø3.5 × 20 mm Non-locking Screw
MFT-011-35-20
ø3.5 × 22 mm Non-locking Screw
MFT-011-35-22
ø3.5 × 24 mm Non-locking Screw
MFT-011-35-24
ø3.5 × 26 mm Non-locking Screw
MFT-011-35-26
ø3.5 × 28 mm Non-locking Screw
MFT-011-35-28
ø3.5 × 30 mm Non-locking Screw
MFT-011-35-30
ø3.5 × 32.5 mm Non-locking Screw
MFT-011-35-325
ø3.5 × 35 mm Non-locking Screw
MFT-011-35-35
ø3.5 × 37.5 mm Non-locking Screw
MFT-011-35-375
ø3.5 × 40 mm Non-locking Screw
MFT-011-35-40
ø3.5 × 42.5 mm Non-locking Screw
MFT-011-35-425
ø3.5 × 45 mm Non-locking Screw
MFT-011-35-45
ø3.5 × 47.5 mm Non-locking Screw
MFT-011-35-475
ø3.5 × 50 mm Non-locking Screw
MFT-011-35-50
25
SCREWS
3.5 mm Fixed Angle Locking Screws
Description
Part #
ø3.5 × 8 mm Fixed Angle Locking Screw
MFT-021-35-08
ø3.5 × 10 mm Fixed Angle Locking Screw
MFT-021-35-10
ø3.5 × 12 mm Fixed Angle Locking Screw
MFT-021-35-12
ø3.5 × 14 mm Fixed Angle Locking Screw
MFT-021-35-14
ø3.5 × 16 mm Fixed Angle Locking Screw
MFT-021-35-16
ø3.5 × 18 mm Fixed Angle Locking Screw
MFT-021-35-18
ø3.5 × 20 mm Fixed Angle Locking Screw
MFT-021-35-20
ø3.5 × 22 mm Fixed Angle Locking Screw
MFT-021-35-22
ø3.5 × 24 mm Fixed Angle Locking Screw
MFT-021-35-24
ø3.5 × 26 mm Fixed Angle Locking Screw
MFT-021-35-26
ø3.5 × 28 mm Fixed Angle Locking Screw
MFT-021-35-28
ø3.5 × 30 mm Fixed Angle Locking Screw
MFT-021-35-30
ø3.5 × 32.5 mm Fixed Angle Locking Screw
MFT-021-35-325
ø3.5 × 35 mm Fixed Angle Locking Screw
MFT-021-35-35
ø3.5 × 37.5 mm Fixed Angle Locking Screw
MFT-021-35-375
ø3.5 × 40 mm Fixed Angle Locking Screw
MFT-021-35-40
ø3.5 × 42.5 mm Fixed Angle Locking Screw
MFT-021-35-425
ø3.5 × 45 mm Fixed Angle Locking Screw
MFT-021-35-45
4.0 mm Non-Locking Screws
26
Description
Part #
ø4.0 × 8 mm Non-locking Screw
MFT-011-40-08
ø4.0 × 10 mm Non-locking Screw
MFT-011-40-10
ø4.0 × 12 mm Non-locking Screw
MFT-011-40-12
ø4.0 × 14 mm Non-locking Screw
MFT-011-40-14
ø4.0 × 16 mm Non-locking Screw
MFT-011-40-16
ø4.0 × 18 mm Non-locking Screw
MFT-011-40-18
ø4.0 × 20 mm Non-locking Screw
MFT-011-40-20
ø4.0 × 22 mm Non-locking Screw
MFT-011-40-22
ø4.0 × 24 mm Non-locking Screw
MFT-011-40-24
ø4.0 × 26 mm Non-locking Screw
MFT-011-40-26
ø4.0 × 28 mm Non-locking Screw
MFT-011-40-28
ø4.0 × 30 mm Non-locking Screw
MFT-011-40-30
ø4.0 × 32.5 mm Non-locking Screw
MFT-011-40-325
ø4.0 × 35 mm Non-locking Screw
MFT-011-40-35
ø4.0 × 37.5 mm Non-locking Screw
MFT-011-40-375
ø4.0 × 40 mm Non-locking Screw
MFT-011-40-40
ø4.0 × 42.5 mm Non-locking Screw
MFT-011-40-425
ø4.0 × 45 mm Non-locking Screw
MFT-011-40-45
ø4.0 × 47.5 mm Non-locking Screw
MFT-011-40-475
ø4.0 × 50 mm Non-locking Screw
MFT-011-40-50
ø4.0 × 55 mm Non-locking Screw
MFT-011-40-55
ø4.0 × 60 mm Non-locking Screw
MFT-011-40-60
INSTRUMENTS
Description
Part #
Plate Bending Pliers
MXS-051
Bending Irons
MXL-050
60 mm Depth Gauge
CAT-059-60
ø2.4 mm Fixed Guide w/ Depth Gauge
MFT-071-24-FDG
ø2.4 mm Keyway Drill Guide
MFT-071-24-KG
Ratcheting Handle
DRV-057
Non-Ratcheting Handle
HEXSTAR™ Driver – Tapered
MFT-057
MXS-056-T
ø1.9 mm Drill Bit
MFT-072-19
ø2.4 mm Drill Bit
MFT-072-24
ø2.7 mm Drill Bit
MFT-072-27
ø3.5 mm Lag Drill Bit
MFT-072-35
ø4.0 mm Lag Drill Bit
MFT-072-40
Drill Guide Handle
MFT-171
ø1.9 mm Centered Guide Tip
MFT-171-19-C
ø1.9 mm Offset Drill Guide Tip
MFT-171-19-O
ø2.4 mm Centered Guide Tip
MFT-171-24-C
ø2.4 mm Offset Drill Guide Tip
MFT-171-24-O
ø2.7 mm Centered Guide Tip
MFT-171-27-C
ø2.7 mm Offset Drill Guide Tip
MFT-171-27-O
ø3.5 mm Centered Guide Tip
MFT-171-35-C
ø4.0 mm Centered Guide Tip
MFT-171-40-C
27
1023 Cherry Road
Memphis, TN 38117
800 238 7117
901 867 9971
www.wright.com
10801 Nesbitt Avenue South
Bloomington, MN 55437
888 867 6437
952 426 7600
www.tornier-us.com
™Trademarks and ®Registered marks of Wright Medical Group N.V. or its affiliates.
©2016 Wright Medical Group N.V. or its affiliates. All Rights Reserved.
MXE 801-001 Rev B ECN 160603 13-Apr-2016