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Surgical Technique
This publication is not intended for distribution in the USA.
Instruments and implantsapproved by the AO Foundation.
Less invasive stabilization system (LISS) for LISS and LCP DF Plates.
Stardrive
Hex drive
Image intensifier control
This description alone does not provide sufficient background for direct use of DePuy Synthes products. Instruction by a surgeon experienced in handling these products is highly recommended.
Processing, Reprocessing, Care and MaintenanceFor general guidelines, function control and dismantling of multi-part instruments, as well as processing guidelines for implants, please contact your local sales representative or refer to:http://emea.depuysynthes.com/hcp/reprocessing-care-maintenanceFor general information about reprocessing, care and maintenance of Synthes reusable devices, instrument trays and cases, as well as processing of Synthes non-sterile implants, please consult the Important Information leaflet (SE_023827) or refer to: http://emea.depuysynthes.com/hcp/reprocessing-care-maintenance
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 1
Introduction Less invasive stabilization system (LISS) 2 for LISS and LCP DF Plates
AO Principles 4
Indications and Contraindications 5
Clinical Cases 6
Surgical Technique Preoperative Planning 8
Preparation 11
Plate Insertion 17 – Option A: Insertion of Self-Drilling, 21 Monocortical Locking Screws
– Option B: Insertion of Self-Tapping, 26 Bicortical Locking Screws
– Option C: Insertion of Self-Tapping Locking Screws 30 for Periprosthetic Fractures
– Option: Pulling Device (“Whirly Bird”) 33 – Option: Guiding Blocks 34
Implant Removal 37
Additional Information 39
Instruments for Minimally Invasive Osteosynthesis 40
Product Information Implants 41
Locking Screws B 5.0 mm 42
Instruments 43
Sets 46
Bibliography 48
MRI Information 49
Table of Contents
2 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Less invasive stabilization system (LISS) for LISS and LCP DF Plates.
Anatomically precontoured low profile plates – Limited plate -periosteum contact – No need for plate contouring
Precaution: Excessive and repetitive bending is not recommended as it may weaken the plate.
Angular stability – May prevent screw loosening as well
as primary and secondary loss of reduction
– Offers purchase in osteoporotic bone and in multiple fragment frac-tures
LCP combi-holes – Combine a dynamic compression
unit (DCU) hole with a locking screw hole
– Permits an internal plate fixation using standard screws, locking screws or a combination of the two
Wide variety of anatomically precontoured plates – Available in stainless steel and
titanium alloy (TAN) – LCP DF plates in eight lengths with
5 to 19 holes in the shaft – Long LCP DF plates (15 to 19 holes)
available in sterile only – LISS plates in TAN in lengths 5,
9 and 13 holes
Wide variety of screws – Self-tapping or self-drilling locking
screws – Periprosthetic locking screws with
blunt tip for periprosthetic fractures – Cortex screws – Available in stainless steel and
titanium
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 3
LISS instrumentation for Stardrive and Hex driveThe torque-limiting screwdriver, the screwdriver shaft and the cleaning in-strument are available for screws with Stardrive and Hex drive.
The radiolucent LISS insertion guide permits a minimally-invasive surgery, allows accurate percutaneous place-ment of screws and facilitates the in-sertion of the plate.
Available guiding tools: guiding block and LISS insertion guide
The guiding block facilitates mounting of the threaded LCP drill sleeves.
The threaded holes in the plate head also accept cortex screws to create compression.
Note: Cortex screws are only recom-mended in cases when compression through the plate is needed or when an independent cortex screw cannot be placed. This decision depends on patient’s history, bone quality, physio-logical condition and compliance and has to be made individually for each patient.
Use of cortex screws in the plate head
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4_Priciples_03.pdf 1 05.07.12 12:08
4 DePuy Synthes Expert Lateral Femoral Nail Surgical Technique
AO PRINCIPLES
In 1958, the AO formulated four basic principles, which have become the guidelines for internal fixation1, 2.
1 Müller ME, M Allgöwer, R Schneider, H Willenegger. Manual of Internal Fixation. 3rd ed. Berlin Heidelberg New York: Springer. 1991.
2 Rüedi TP, RE Buckley, CG Moran. AO Principles of Fracture Management. 2nd ed. Stuttgart, New York: Thieme. 2007.
Anatomic reductionFracture reduction and fixation to restore anatomical relationships.
Early, active mobilizationEarly and safe mobilization and rehabilitation of the injured part and the patient as a whole.
Stable fixationFracture fixation providing abso-lute or relative stability, as required by the patient, the injury, and the personality of the fracture.
Preservation of blood supplyPreservation of the blood supply to soft tissues and bone by gentle reduction techniques and careful handling.
4 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
AO Principles
1 Müller ME, Allgöwer M, Schneider R, Willenegger H. Manual of Internal Fixation. 3rd ed. Berlin, Heidelberg, New York: Springer. 1991.
2 Rüedi TP, Buckley RE, Moran CG. AO Principles of Fracture Management. 2nd ed. Stuttgart, New York: Thieme. 2007.
Anatomic reductionFracture reduction and fixation to restore anatomical relationships.
Early, active mobilizationEarly and safe mobilization and rehabilitation of the injured part and the patient as a whole.
In 1958, the AO formulated four basic principles, which have become the guidelines for internal fixation1,2.
Stable fixationFracture fixation providing absolute or relative stability, as required by the patient, the injury, and the personality of the fracture.
Preservation of blood supplyPreservation of the blood supply to soft tissues and bone by gentle reduction techniques and careful handling.
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 5
Indications and Contraindications
IndicationsLCP DF is indicated for the stabilization of fractures of the distal femur. These include: – Distal shaft fractures – Supracondylar fractures – Intra-articular fractures – Periprosthetic fractures
ContraindicationsNo specifi c contraindications.
6 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Case 1Male, 20 years old, polytrauma, fracture 33-C3
Clinical Cases
Preoperative Follow-up after 6 weeks
Follow-up after 3 months Follow-up after 5 months
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 7
Case 2Male, 76 years old, isolated fracture 33-B2
Preoperative Postoperative
Follow-up after 4 weeks
LCP Distal Femur, right
Titanium St. Steel Holes Length (mm)422.250 222.250 5 156422.252 222.252 7 196422.254 222.254 9 236422.256 222.256 11 276422.258 222.258 13 31604.124.030S 02.124.030S 15 35604.124.034S 02.124.034S 17 39604.124.038S 02.124.038S 19 436
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0 10 20 30 40 50 60 70 80 90 100 mm
1.10 Magnification
Caution: Due to variable magnification factors in x-rays, this template should be used for general pre-operative planning only.
For use only with the Original AO System of Instruments and Implants
LCP Distal Femur, leftE D/F A C/G
B1
23 4 5 6 7 8 9 10 11 12 13
D B/A/EC G
F
Titanium St. Steel Holes Length (mm)422.251 222.251 5 156422.253 222.253 7 196422.255 222.255 9 236422.257 222.257 11 276422.259 222.259 13 31604.124.031S 02.124.031S 15 35604.124.035S 02.124.035S 17 39604.124.039S 02.124.039S 19 436
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0 10 20 30 40 50 60 70 80 90 100 mm
1.10 Magnification
Caution: Due to variable magnification factors in x-rays, this template should be used for general pre-operative planning only.
For use only with the Original AO System of Instruments and Implants
8 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Preoperative Planning
Use the x-ray templates for LCP DF (Art. No. 034.000.315 for right and 034.000.320 for left femur) to determine the length of the plate and the position of the screws.
Preoperative planning of lag screws may be necessary.
Precaution: Plate bending is not recommended as this may weaken the plate and the plate-screw interface and can compro mise the targeting function of an aiming arm, if in use. However, there may be cases in which plate bending is clinically necessary. In such cases, the plate should only be bent to fit proximal femur anatomy and only bend the plate incrementally and between screw holes using the plate bending press (329.300), and never bend back-and-forth. Insert at least one screw distal to the bend.
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 9
Preoperative screw-length selection using an AP radiographTo select the proper screw length for the condyle, it is possi-ble to perform a preoperative x-ray with the 50 mm wide calibrator and to use the table below.
1. Place the x-ray calibrator medially or laterally at the height of the condyle.
2. Take an AP radiograph of the distal femur.3. Measure the width of the x-ray calibrator (XRC)
on the radiograph.4. Measure the maximum condyle width (MCW)
on the radiograph.5. Determine the real condyle width (RCW).
RWC = 50 × MCWXRC
6. Determine the screw lengths for the screw holes A to G using the table below. The positions A to G are indicated on the x-ray template and on the LISS DF insertion guide.
Length of locking screws (mm)
Real condyle width (RCW)
HoleA
HoleB
HoleC
HoleD
HoleE
HoleF
HoleG
60–80 mm 65 40 40 55 65 65 55
81–87 mm 75 40 55 65 75 75 65
88–95 mm 75 55 65 65 75 75 75
96–110 mm 85 65 75 75 75 85 85
10 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Preoperative Planning
ExampleThe length of the x-ray calibrator on the radiograph (XRC) is 55 mm (magnification 1.10).
The maximum condyle width on the radiograph (MCW) amounts to 91 mm.
RWC = 50 × 91 = 83XRC
The real condyle width (RCW) is therefore 83 mm.
The screw lengths are therefore:
Screw hole Screw length (mm)
A 75
B 40
C 55
D 65
E 75
F 75
G 65
Note: The proper placement of the plate on the condyle is essential to ensure the correct screw length.
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 11
Preparation
1Prepare required sets
Instrument sets
01.120.040 LISS Instruments and Insertion Handle, for DF and PLT Plates, in Vario Case
or01.120.041 LISS Instruments Stardrive and
Insertion Handle, for DF and PLT Plates, in Vario Case
Optional instrument set
01.120.457 LCP Large Fragment Instruments and Standard Instruments in Vario Case
Plate sets
01.120.332 LCP-DF 4.5/5.0 (Stainless Steel), in Modular Tray, Vario Case System
or01.120.334 LCP-DF 4.5/5.0 (Titanium Alloy/TAN),
in Modular Tray, Vario Case System
Note on long plates: The LCP DF plates with 15 to 19 holes are available in sterile only and not part of a set. Therefore these articles have to be ordered as single items (for article numbers refer to page 41).
Screw sets
68.122.050 Modular Insert, for Modular Screw Rack, for Screws B 5.0 mm, size 1⁄3, without Contents, Vario Case System
68.122.051 Modular Insert, for Modular Screw Rack, for Screws B 4.5 mm, size 1⁄3, without Contents, Vario Case System
68.122.052 Modular Insert, for Modular Screw Rack, for Screws B 6.5 mm, size 1⁄3, without Contents, Vario Case System
68.122.054 Modular Screw Rack, with Drawer, Mea-suring Block and Lid, length 200 mm, height 115 mm, size ½, without Contents, Vario Case System
Power Tools*
511.701 Compact Air Drive II
511.750 AO/ASIF Quick Coupling, for Compact Air Drive and Power Drive
511.790 Quick Coupling for Kirschner Wires B 0.6 to 3.2 mm, for Compact Air Drive and Power Drive
05.001.201 Battery Handpiece, modular, for Trauma Recon System
05.001.202 Power Module, for Trauma Recon System
05.001.203 Sterile Cover, for Trauma Recon System
05.001.227 Lid for Battery Handpiece No. 05.001.201, for Trauma Recon System
05.001.205 AO/ASIF Quick Coupling, for Trauma Re-con System
05.001.212 Quick Coupling for Kirschner Wires B 1.0 to 4.0 mm, for Trauma Recon System
05.001.216 Torque Limiter, 4.0 Nm, for Trauma Recon System
* For further information refer to the instructions for use for the Trauma Recon System (036.000.505) or the Compact Air Drive (036.000.064).
12 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Preparation
Note: The LISS instruments are compatible with both LISS and LCP DF plates. This technique guide shows the tech-nique with LCP plates only. For your reference a picture of the LISS pate is shown on the right.
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 13
2Position the patient
Position the patient supine on a radiolucent table. The leg should be freely movable. The contralateral leg can be placed in an obstetric leg holder. Place the knee joint line slightly distal to the hinged part of the table to allow flexion of the knee during surgery.
Avoid too strong a traction and a fully extended knee, as the forces of the gastrocnemius muscle would draw the distal fragment into recurvatum. This does not only make the re-duction of the fracture difficult, but also endangers the pop-liteal artery and vein.
In very short distal fragments, it is recommended to flex the lower leg to approximately 60°. This also reduces the trac-tion force of the gastrocnemius muscle.
23
4 5
1
14 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
3Assemble the insertion instruments
Instruments
324.011 LISS Insertion Guide for Distal Femur, left, radiolucent
or 324.012 LISS Insertion Guide for Distal Femur,
right, radiolucent 1
321.170 Pin Wrench B 4.5 mm, length 120 mm 2
324.022 Drill Sleeve for LISS Insertion Guide, length 130 mm 3
324.044 Stabilization Bolt for LISS Insertion Guide, length 156 mm 4
324.043 Fixation Bolt for LISS Insertion Guide, length 151 mm 5
Note: In certain cases (e.g. distal fracture treated with a short plate) it may be advantageous to do the surgery with-out using the LISS insertion guide and the corresponding LISS instruments. Then, screws can be inserted by applying the technique described in the LCP Instructions for Use DSEM/TRM/0115/0278 (036.000.019).
Insert the fixation bolt in hole A of the insertion guide.
Place the insertion guide on the three-point locking mechanism of the plate.
Hole A
Preparation
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 15
Thread the fixation bolt into the plate. Thread the nut of the fixation bolt and lightly tighten it with the pin wrench.
For a more stable fixation of the plate on the insertion guide during insertion, introduce the stabilization bolt with the drill sleeve in hole B and thread it into the plate.
Note: To prevent tissue ingrowth and facilitate implant re-moval, the unoccupied screw holes may be filled with screw hole inserts prior to inserting the plate. Use the torque-limit-ing screwdriver. The optimum torque is reached after one click.
Hole B Hole A
16 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
4Reduce the fracture
In an intra-articular fracture, first reconstruct and stabilize the entire joint. The figure shows the possible positioning sites for lag screws in the condyles (in red).
Note: Make sure that these lag screws will not collide with the screws inserted through the insertion guide.
The fracture can be aligned manually by traction using a temporary knee-bridging external fixator or a distractor. Intraoperative x-ray or image-intensifier control is recom-mended to check the reduction.
The anteromedial insertion of a Schanz screw can be benefi-cial in distal fragment manipulation.
5Surgical approaches
Extra-articular fracturesPerform a skin incision from Gerdy’s tubercle about 80 mm in a proximal direction. Split the iliotibial tract in the direction of the fibres. Open the space between the lateral vastus and the periost. Distally, the lateral vastus muscle inserts mainly on the femoral ridge. There are no muscle insertions on the lateral periost or bone. The plate can be inserted into the space between the periost and the muscle.
Intra-articular fracturesIn intra-articular fractures, an anterolateral arthrotomy pro-viding good control of the reduction is recommended. This arthrotomy also allows a subsequent insertion of the plate and can be used to insert lag screws from medially.
Precaution: The incision can be extended if necessary to improve visualization of the articular surface or lateral me-taphysis and diaphysis. It may not always be appropriate to use limited incisions and closed reduction techniques.
Possible positioning sites for lag screws (in red)
Preparation
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 17
Plate Insertion
1Insert LISS
Instruments
Assembled Insertion Guide
324.027 Trocar, length 162 mm, for No. 324.022
Use the assembled insertion guide to insert the plate be-tween the lateral vastus muscle and the periost. Slide the plate proximally and ensure that its proximal end remains in constant contact with the bone. Position the distal end of the plate against the lateral condyle. To find the correct posi-tion, move the plate proximally and then back distally until the plate fits the condyle. Should the proximal end of the handle and the soft tissues impair the insertion of the plate, it is possible to remove the radiolucent proximal part of the handle for insertion.
Due to its weight, the insertion guide tends to tilt dorsally. If the insertion guide points parallel to the floor with the pa-tient in a supine position, the plate is externally rotated and no longer lies flat up against the lateral condyle. The fixation bolt must be oriented parallel to the patello-femoral joint. Consequently, the insertion guide shows an internal rotation of about 10°. This occurrence is also visible in the AP view of an image intensifier. The plate must lie flat up against the condyle to ensure an optimal fit on the bone.
18 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Once the plate is properly aligned with the bone, remove the drill sleeve and stabilization bolt from hole B. Insert the tro-car through the drill sleeve in the most proximal hole of the plate. Perform a stab incision and push the drill sleeve and the trocar down to the plate. Check the correct position of the proximal part of the plate, either with the image intensi-fier or by direct palpation.
Secure the position of the drill sleeve with the lateral screw on the insertion guide. Replace the trocar with a stabilization bolt. To close the frame, thread the stabilization bolt into the plate.
Note: Due to soft tissues around the stabilization bolt, it will be difficult to change the position of the plate/handle as-sembly once the bolt has been inserted.
Option: Check plate position with a Kirschner Wire
Instrument
292.699 Kirschner Wire B 2.0 mm with threaded tip, length 280 mm, Stainless Steel
Use a Kirschner wire to check the correct position of the proximal part of the plate on the bone.
Plate Insertion
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 19
2Fixate LISS temporarily with Kirschner wires
Instrument
292.699 Kirschner Wire B 2.0 mm with threaded tip, length 280 mm, Stainless Steel
For preliminary fixation of the plate, use 2.0 mm Kirschnerwires through the fixation and stabilization bolts.
Carefully check the position of the plate and the length of the reduced injured limb. Once the reduction has been successfully completed and the plate has been positioned correctly, the locking screws can be inserted.
20 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Alternative technique
Instruments
324.048 Aiming Device for Kirschner Wires, for LISS Insertion Guide
324.034 Centering Sleeve for Kirschner Wire, length 184 mm, for No. 324.048
292.699 Kirschner Wire B 2.0 mm with threaded tip, length 280 mm, Stainless Steel
If necessary, it is possible to use 2.0 mm Kirschner wires for the preliminary fixation along the full length of the plate. Use the aiming device for Kirschner wires to insert the wires on the ventral and dorsal side of the plate. Note that the dis-tance between bone and plate should be kept as short as possible when inserting the wires, as they are arranged in a convergent way. After the insertion of the Kirschner wires, the distance between plate and bone can no longer be re-duced.
After removing the Kirschner wire sleeves and the aiming device, proximal/distal displacement and adjustment of the position of the plate can be carried out. At the same time, the lateral Kirschner wires prevent the plate from migrating into the sagittal plane. Once the correct position is deter-mined, the plate can be locked temporarily with a Kirschner wire through the fixation bolt.
Note: The aiming device can be used from hole 3 to hole 13.
Plate Insertion
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 21
Option A: Insertion of Self-Drilling, Monocortical Locking Screws
Screw placement depends on the type of fracture. The position of the screws should be chosen in accordance with established biomechanical principles for internal fixation. The screws should be inserted close to and remote from the fracture gap in the main fragments. Use at least four screws per fracture side.
Once the initial screw has been inserted in each main frag-ment, length and rotation are defined. Ante- and recurva-tum deformities can still be manipulated relatively well, whereas there are only limited correction possibilities for varus/valgus deformities. Therefore, it is recommended to insert the first screw in the distal fragment. The distal screws should be placed parallel to the knee joint. Then insert a screw in the proximal fragment.
Note: If a screw has to be removed and reinserted, use the torque-limiting screwdriver and not the power tool.
22 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
1Make stab incision
Instruments
324.022 Drill Sleeve for LISS Insertion Guide, length 130 mm
324.027 Trocar, length 162 mm, for No. 324.022
Make a stab incision and insert the trocar through the drill sleeve.
2Determine screw length
The length of the condylar screws can be deduced from the table on page 9.
Use screws of 26 mm length in the diaphyseal region.
Options: – In case of very thick cortex, pre-drill by using the pulling
device (324.033) or the drill bit B 4.3 mm (310.423). – The insertion of the initial screw tends to push the bone
medially, especially in case of dense bone and/or unstable reductions. The pulling device helps to solve this problem (see page 33).
Option A: Insertion of Self-Drilling, Monocortical Locking Screws
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 23
Option: Determine screw length with Kirschner wire
Instruments
324.055 Centering Sleeve for Kirschner Wire, length 161 mm, for No. 324.022
324.037 LISS Measuring Device for Kirschner Wires B 2.0 mm, length 121 mm, for No. 292.699
292.699 Kirschner Wire B 2.0 mm with threaded tip, length 280 mm, Stainless Steel
It is also possible to use the measuring device with a 2.0 mm Kirschner wire, placed through the centering sleeve.
Using image intensification, insert the Kirschner wire to the desired depth leaving at least 5 mm between the tip of the Kirschner wire and the medial cortex. Measure the screw length over the Kirschner wire using the measuring device for Kirschner wires, leaving the centering sleeve in place, and round down to the nearest screw length. This will ensure that the tip of the screw will not protrude through the me-dial cortex.
24 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
3Insert self-drilling locking screws
Instruments
511.771 Torque Limiter, 4 Nm, for Compact Air Drive and Power Drive
324.050 Screwdriver Shaft 3.5, hexagonal, length 180 mm
or324.250 Screwdriver Shaft Stardrive, T25,
length 180 mm
324.052 Torque-limiting Screwdriver 3.5, self-holding, for Locking Screws B 5.0 mm
or 314.163 Torque-limiting Screwdriver Stardrive, T25,
self-holding, for Locking Screws B 5.0 mm
324.019 Stopper for LISS Insertion Guide
To insert the locking screw using a power tool, fit a torque limiter to the power tool and insert the screwdriver shaft into the torque limiter.
Insert the locking screw into the plate hole through the drill sleeve for LISS insertion guide. To insert the screw, start the power tool slowly, increase the speed and then reduce it again before the screw is fully tightened. Advance the screws into the bone until the second bulge of the screwdriver dis-appears in the drill sleeve.
2nd bulge
1st bulge
Option A: Insertion of Self-Drilling, Monocortical Locking Screws
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 25
Tighten the screw manually with the torque-limiting screw-driver. After one click, the optimum torque is reached.
Insert a stopper into the LISS insertion guide after screw insertion.
Notes: – To reduce the risk of stripping the screw head do not lock
the screws at full speed. This can make it difficult to re-move the implant.
– In order to achieve an excellent interface between screw and bone and to prevent a medial migration of the bone, use the power tool without high axial forces (3 to 5 kg).
– To prevent heat necrosis, it is important to cool the screw with saline solution during the drilling procedure through the drill sleeve.
– If the screw is difficult to insert or stops advancing prior to locking to the plate, remove the screw and clean the cut-ting flutes using a Kirschner wire. The screw can be re-used if the socket has not been damaged.
– Should the screwdriver be difficult to remove after inser-tion, disconnect it from the power tool and remove the drill sleeve. After reconnecting the screwdriver to the power tool, withdraw the screwdriver from the screw.
26 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Option B: Insertion of Self-Tapping, Bicortical Locking Screws
1Make stab incision
Instruments
324.022 Drill Sleeve for LISS Insertion Guide, length 130 mm
324.027 Trocar, length 162 mm, for No. 324.022
Make a stab incision and insert the trocar through the drill sleeve for LISS insertion guide.
2Predrill screw hole
Instruments
324.007 Drill Sleeve 7.2/4.3, length 130 mm, for LISS
310.423 Drill Bit B 4.3 mm, length 280 mm, for No. 324.007
Remove the trocar and thread the drill sleeve 7.2/4.3 into the plate hole through the drill sleeve for LISS insertion guide.
Carefully drill the screw hole using the 4.3 mm drill bit.
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 27
3Determine screw length
The length of the condylar screws can be deduced from the table on page 9.
For screws in the diaphyseal region
Slide the stop ring down to the drill sleeve to make reading easier.
Read the drilled depth directly from the laser mark on the drill bit. Remove both drill bit and drill sleeve 7.2/4.3.
Option: The insertion of the initial screw tends to push the bone medially, especially in the case of dense bone and/or unstable reductions. The pulling device helps to solve this problem (see page 33).
28 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
4Insert self-tapping locking screws
Instruments
511.771 Torque Limiter, 4 Nm, for Compact Air Drive and Power Drive
324.050 Screwdriver Shaft 3.5, hexagonal, length 180 mm
or324.250 Screwdriver Shaft Stardrive, T25,
length 180 mm
324.052 Torque-limiting Screwdriver 3.5, self-holding, for Locking Screws B 5.0 mm
or314.163 Torque-limiting Screwdriver Stardrive, T25,
self-holding, for Locking Screws B 5.0 mm
324.019 Stopper for LISS Insertion Guide
Choose a self-tapping locking screw according to the mea-sured length. To insert the locking screw using a power tool, fit a torque limiter to the power tool and insert the screw-driver shaft into the torque limiter.
Insert the locking screw into the plate hole through the drill sleeve for LISS insertion guide. To insert the screw, start the power tool slowly, increase the speed and then reduce it again before the screw is fully tightened. Advance the screws into the bone until the second bulge of the screwdriver dis-appears in the drill sleeve.
Warning: If the torque limiter is unavailable, do not tighten the screws to the plate under power. Perform final tighten-ing by hand.
2nd bulge
1st bulge
Option B: Insertion of Self-Tapping, Bicortical Locking Screws
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 29
Tighten the screw manually with the torque-limiting screw-driver. The optimum torque is reached after one click.
Insert a stopper into the LISS insertion guide after screw insertion.
Precautions: – To reduce the risk of stripping the screw head do not lock
the screws at full speed. This can make it difficult to re-move the implant.
– For long screws and thick cortical bone, ensure cooling during insertion.
Option: Manual insertion
Instruments
324.052 Torque-limiting Screwdriver 3.5, self-holding, for Locking Screws B 5.0 mm
or314.163 Torque-limiting Screwdriver Stardrive, T25,
self-holding, for Locking Screws B 5.0 mm
324.019 Stopper for LISS Insertion Guide
Insert and lock the screw with the torque-limiting screw-driver through the drill sleeve for LISS insertion guide.
Insert a stopper into the LISS insertion guide after screw insertion.
30 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Option C: Insertion of Self-Tapping Locking Screws for Periprosthetic Fractures
Special screws for periprosthetic fractures have been devel-oped for cases in which an intramedullary nail or a prosthesis could impair the placement of screws.
These periprosthetic screws are self-tapping with a flattened, very short tip. This ensures optimal fixation of the plate on the diaphysis. They are available in five lengths of 8, 10, 12, 14 and 18 mm and allow the thread to engage in the near cortex.
1Make stab incision
Instruments
324.022 Drill Sleeve for LISS Insertion Guide, length 130 mm
324.027 Trocar, length 162 mm, for No. 324.022
Make a stab incision for plate holes requiring a periprosthetic screw and insert the drill sleeve for LISS insertion guide and the trocar.
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 31
3Determine screw length
Slide the stop ring down to the drill sleeve to make reading easier.
Read the drilled depth directly from the laser mark on the drill bit. Remove both drill bit and drill sleeve 7.2/4.3.
2Predrill screw hole
Instruments
324.007 Drill Sleeve 7.2/4.3, length 130 mm, for LISS
310.423 Drill Bit B 4.3 mm, length 280 mm, for No. 324.007
Remove the trocar and thread the drill sleeve 7.2/4.3 into the plate hole through the drill sleeve for LISS insertion guide.
Use the drill bit to pre-drill the bone under image intensifier control. Drill as close to the prosthesis or intramedullary implant as possible to allow for the placement of the longest periprosthetic screw possible.
32 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
4Insert self-tapping locking screws for periprosthetic fractures
Instruments
324.052 Torque-limiting Screwdriver 3.5, self-holding, for Locking Screws B 5.0 mm
or314.163 Torque-limiting Screwdriver Stardrive, T25,
self-holding, for Locking Screws B 5.0 mm
324.019 Stopper for LISS Insertion Guide
Choose a periprosthetic screw according to the measured length. Insert and lock the screw with the torque-limiting screwdriver through the drill sleeve for LISS insertion guide.
Insert a stopper into the LISS insertion guide after screw insertion.
Note: If the measured drill depth is shorter than 8 mm, do not use periprosthetic screws.
Precaution: Never place a screw which is longer than the measured length, as this will result in stripping of the thread in the bone and loss of screw anchoring.
Option C: Insertion of Self-Tapping Locking Screws for Periprosthetic Fractures
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 33
Option: Pulling Device (“Whirly Bird”)
Instrument
324.033 Pulling Device, length 240 mm, for LISS
324.022 Drill Sleeve for LISS Insertion Guide, length 130 mm
The insertion of the initial screw tends to push the bone medially, especially in case of dense bone and/or unstable reductions. The pulling device helps to solve this problem.
Insert the pulling device without the knurled nut through the drill sleeve into the neighbouring hole of the first permanent screw.
Stop the power tool before the entire screw length of the pulling device is inserted.
Remove the power tool and the drill sleeve.
Screwing the knurled nut onto the pulling device allows the bone to pull towards the plate. Since the tip of this instru-ment has a diameter of 4.0 mm, replacing it with a 5.0 mm locking screw still ensures good purchase in the bone.
Precaution: It is important to monitor the advance of the screw tip carefully when inserting the pulling device. Stop the power tool before the pulling device is seated on the plate. Failure to do so may result in stripping the thread in the bone.
34 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Option: Guiding Blocks
Using LCP instrumentationSee technique guide LCP Locking Compression Plate DSEM/TRM/0115/0278 (036.000.019).
Using LISS instrumentationUse instruments as described in section plate insertion.
Using the guiding blocks for LCP DF The guiding block facilitates mounting of the threadedLCP drill sleeves in the head of the plate.
Instruments
312.946/947 Guiding Block for LCP DF, right/left
323.042 LCP Drill Sleeve 5.0, for Drill Bits B 4.3 mm
310.430 LCP Drill Bit B 4.3 mm with Stop, length 221 mm, 2-flute, for Quick Coupling
Note: If cortex screws are used they have to be inserted be-fore mounting the guiding block and before inserting locking screws.
A
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 35
2Insert a first LCP drill sleeve through the guiding block into the central hole (A) of the plate and tighten it.
3To lock the LCP drill sleeve tighten the locking nut of the guiding block by turning it clockwise.
1Choose the matching guiding block and place it onto the plate head. Make sure that the three-point locking mechanism is positioned on the pre-contoured reference points of the plate.
Instrument assembly
36 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Option: Guiding Blocks
Predrilling and screw measurementPre-drill with the LCP drill bit B 4.3 mm. Measure screw length by reading the drilled depth directly from the laser mark on the drill bit. To make reading easier shove the stop ring down to the drill sleeve.
Screw insertionRemove the LCP drill sleeve. Insert the locking screw through the guiding block.
4 For preparing additional holes in the plate head insert LCP drill sleeves in the surrounding holes.
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 37
Implant Removal
Instruments
324.011 LISS Insertion Guide for Distal Femur, left, radiolucent
or324.012 LISS Insertion Guide for Distal Femur, right,
radiolucent
324.043 Fixation Bolt for LISS Insertion Guide, length 151 mm
324.022 Drill Sleeve for LISS Insertion Guide, length 130 mm
324.044 Stabilization Bolt for LISS Insertion Guide, length 156 mm
324.027 Trocar, length 162 mm, for No. 324.022
324.050 Screwdriver Shaft 3.5, hexagonal, length 180 mm
or324.250 Screwdriver Shaft Stardrive, T25,
length 180 mm
324.052 Torque-limiting Screwdriver 3.5, self-holding, for Locking Screws B 5.0 mm
or314.163 Torque-limiting Screwdriver Stardrive, T25,
self-holding, for Locking Screws B 5.0 mm
Remove the implant only after complete consolidation of the fracture. Remove it in reverse order to the implantation.
First, make the incision for the insertion guide in the path of the old scar, and mount the insertion guide (see step 1 on page 17).
Make stab incisions and use the torque-limiting screwdriver to unlock all screws manually. In a second step, completely remove all screws with a power tool.
38 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Option: Clean screw heads with cleaning instruments
Instruments
324.053 Cleaning Instrument for LISS Screw Head, length 202 mm
or324.253 Cleaning Instrument for Screw Head
Stardrive, T25, length 202 mm
The cleaning instrument helps to clean the recess of the screw heads. After placing the drill sleeve, insert the cleaning instrument carefully. Insert the stiletto with threaded tip and turn clockwise. Remove the cleaning instrument. Unlock all screws manually with the torque-limiting screwdriver. In a second step, completely remove all screws with a power tool.
If the screws cannot be removed with the screwdriver, please consult the separate Synthes publication “Screw Extraction Set. Instruments for removing Synthes screws.” (Art. No. 036.000.918), which explains in detail how screws with a damaged recess as well as how broken and jammed screws can be removed.
After removal of all screws, remove the plate. Should the plate remain stuck when all screws have been removed, take the insertion guide away and use the fixation bolt to loosen the plate.
Implant Removal
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 39
Additional Information
If the reduction of the fracture causes difficulties, insert a Schanz screw antero-medially in the distal fragment, and use the screw as a joystick. The insertion of a Schanz screw or pulling device into the proximal fragment can also be very beneficial. Should it still be impossible to perform a correct reduction, improve the access by enlarging the soft-tissueopening.
Precaution: Bending and twisting of the plate is not recom-mended as it may result in a misalignment between the holes of the insertion guide and the corresponding plate holes.
Should the plate lie too ventral or too dorsal, the screws can-not be centred in the medullary canal. This position may compromise screw purchase (see illustration).
Both screwdriver shaft and torque-limiting screwdriver are equipped with a self-holding mechanism. Apply slight pres-sure on pick-up to ensure that the screwdriver shaft pene-trates the recess of the screw head.
Should the screwdriver be difficult to remove after insertion, disconnect it from the power tool and remove the drill sleeve. After reconnecting the screwdriver to the power tool, withdraw the screwdriver from the screw.
Standard 4.5 mm cortex screws can be used through the in-sertion guide if required. Note that cortex screws cannot be inserted through the drill sleeve for LISS insertion guide.
Hole A serves to lock the insertion guide to the implant. This hole cannot be used for the insertion of a screw as long as the fixation bolt is attached. If a screw has to be inserted in hole A, remove the fixation bolt – with the stabilization bolt still in place – and attach it in an adjacent hole. Place the drill sleeve in hole A (pre-drill if necessary) and insert the appro-priate screw. If all holes are occupied by a screw, the screw in hole A can be inserted by free-hand technique. Use the di-rection given by the fixation bolt prior to removal of the in-sertion guide to determine the correct direction for insertion.
To ensure stability of the construct, the most proximal screw should be inserted last, just before removing the insertion guide. Remove the stabilization bolt and insert the screw through the drill sleeve.
If hole A is unoccupied, it must be closed with a Screw Hole Insert (422.390) to facilitate the application of the insertion guide for removing the implant.
Correct placement
Compromised screw purchase
40 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Instruments for Minimally Invasive Osteosynthesis
Hohmann Retractor HolderThe Hohmann retractor holder was developed to support minimally invasive, percutaneous plate osteosynthesis. Its unique design enables the easy and reliable percutaneous in-sertion of plates. These characteristics make the Hohmann retractor holder the ideal instrument for use in combination with modern implant systems such as LCP and LISS.
– The Hohmann retractor holder allows better visualization of the inserted plate.
– Serves as a guide for the inserted plate. – Ensures that the inserted plate is centered on the bone.
For additional information see the separate Synthes publication on the Hohmann retractor holder (Art. No. 036.000.219).
Soft Tissue RetractorThe offset blade facilitates easy preparation of the epipe-reosteal cavity for percutaneous plate insertion.
– Adjustable blade for free choice of insertion angle and blade length
– Available in two sizes: for small and large fragment plates
For additional information see the separate Synthes publica-tion on the Soft tissue retractor (Art. No. 036.000.127).
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 41
Implants
LCP Distal Femur (LCP DF)
Stainless steel Titanium alloy Holes Length (mm)
222.250 422.250 5 156 right
222.251 422.251 5 156 left
222.252 422.252 7 196 right
222.253 422.253 7 196 left
222.254 422.254 9 236 right
222.255 422.255 9 236 left
222.256 422.256 11 276 right
222.257 422.257 11 276 left
222.258 422.258 13 316 right
222.259 422.259 13 316 left
02.124.030S 04.124.030S 15 356 right
02.124.031S 04.124.031S 15 356 left
02.124.034S 04.124.034S 17 396 right
02.124.035S 04.124.035S 17 396 left
02.124.038S 04.124.038S 19 436 right
02.124.039S 04.124.039S 19 436 left
Note: Long LCP DF plates from 15–19 holes are available in sterile only.
LISS Distal Femur (LISS DF)
TAN Holes Length (mm)
422.340 5 156 Right
422.341 5 156 Left
422.344 9 236 Right
422.345 9 236 Left
422.348 13 316 Right
422.349 13 316 Left
Add suffix ”S” to article number to order sterile product.
42 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Locking Screws B 5.0 mm
Hex Stardrive
X13.414– X12.251– self-drilling, X13.490 X12.267 length 14–90 mm
X13.314– X12.201 – self-tapping,X13.390 X12.227 length 14–90 mm
0X.221.458 0X.221.508 for periprosthetic0X.221.460 0X.221.510 fractures,0X.221.462 0X.221.512 self-tapping,X22.402 0X.221.514 length 8–18 mmX22.404 0X.221.518
422.390 Screw Hole Insert B 5.0 mm, Titanium Alloy (TAN)
X = 2: stainless steelX = 4: TAN
All screws are available nonsterile and sterile packed. For sterile implants add suffix “S” to the article number.
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 43
Instruments
324.011 LISS Insertion Guide for Distal Femur, left, radiolucent
324.012 LISS Insertion Guide for Distal Femur, right, radiolucent
324.043 Fixation Bolt for LISS Insertion Guide, length 151 mm
321.170 Pin Wrench B 4.5 mm, length 120 mm
324.022 Drill Sleeve for LISS Insertion Guide, length 130 mm
324.044 Stabilization Bolt for LISS Insertion Guide, length 156 mm
324.027 Trocar, length 162 mm, for No. 324.022
324.033 Pulling Device, length 240 mm, for LISS
310.423 Drill Bit B 4.3 mm, length 280 mm, for No. 324.007
44 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
324.052 Torque-limiting Screwdriver 3.5, self-holding, for Locking Screws B 5.0 mm
314.163 Torque-limiting Screwdriver Stardrive, T25, self-holding, for Locking Screws B 5.0 mm
324.050 Screwdriver Shaft 3.5, hexagonal, length 180 mm
324.250 Screwdriver Shaft Stardrive, T25, length 180 mm
324.055 Centering Sleeve for Kirschner Wire, length 161 mm, for No. 324.022
324.019 Stopper for LISS Insertion Guide
324.056 X-ray Calibrator, length 50 mm
324.053 Cleaning Instrument for LISS Screw Head, length 202 mm
324.253 Cleaning Instrument for Screw Head Stardrive, T25, length 202 mm
312.946 Guiding Block for LCP-DF 4.5/5.0, right
312.947 Guiding Block for LCP-DF 4.5/5.0, left
312.940 Guiding Block for LCP-PLT 4.5/5.0, right
312.941 Guiding Block for LCP-PLT 4.5/5.0, left
Instruments
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 45
Optional instruments
324.048 Aiming Device for Kirschner Wires, for LISS Insertion Guide
324.034 Centering Sleeve for Kirschner Wire, length 184 mm, for No. 324.048
292.699 Kirschner Wire B 2.0 mm with threaded tip, length 280 mm, Stainless Steel
324.037 LISS Measuring Device for Kirschner Wires B 2.0 mm, length 121 mm, for No. 292.699
324.007 Drill Sleeve 7.2/4.3, length 130 mm, for LISS
46 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Sets
LISS Instruments and Insertion Handle, for DF and PLT Plates, in Vario Case
01.120.040 Hex
01.120.041 Stardrive
68.120.040 Vario Case
LCP DF 4.5/5.0 in Vario Case
01.120.332 Stainless Steel
01.120.334 Titanium Alloy/TAN
68.120.330 Insert
Note on long plates: The LCP DF plates with 15 to 19 holes are available in sterile only and not part of a set. Therefore these articles have to be ordered as single items (for article numbers refer to page 41).
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 47
Modular Large Fragment Screw Rack
68.122.050 Modular Insert, for Modular Screw Rack, for Screws B 5.0 mm, size 1⁄3, without Contents, Vario Case System
68.122.051 Modular Insert, for Modular Screw Rack, for Screws B 4.5 mm, size 1⁄3, without Contents, Vario Case System
68.122.052 Modular Insert, for Modular Screw Rack, for Screws B 6.5 mm, size 1⁄3, without Contents, Vario Case System
68.122.054 Modular Screw Rack, with Drawer, Measuring Block and Lid, length 200 mm, height 115 mm, size ½, without Contents, Vario Case System
68.122.056 Auxiliary Modular Insert, for Modular Screw Rack, size 1⁄3, without Contents, Vario Case System
68.000.128 Auxiliary Module, size 1⁄3, height 14 mm, for Screw Rack, size ½
68.000.129 Auxiliary Module, size 1⁄3, height 28 mm, for Screw Rack, size ½
48 DePuy Synthes Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique
Bibliography
Fankhauser F et al. (2004) Minimal-invasive treatment of dis-tal femoral fractures with the LISS (Less Invasive Stabilization System). Acta Orthop Scand 75 (1): 56–60
Haas NP et al. (1997) LISS – ein neuer Fixateur intern für distale Femurfrakturen [LISS – a new internal fixator for distal femoral fractures]. OP Journal 13: 340–344
Hockertz TJ et al. (1999) Die Versorgung von periprothe-tischen Femurfrakturen bei liegender Kniegelenkprothese mit dem LIS-System [Use of the LISS to treat periprosthetic femoral fractures with implanted knee prosthesis]. Der Unfallchirurg 10: 811–814
Injury (2001) Int. J. Care Injured 32: S-C
Kobbe P, Hockertz TJ, Reilmann H (2006) Periprothetische Frakturen [Periprosthetic Fractures]. OP Journal 22: 22–26
Schandelmaier P et al. (1999) LISS-Osteosynthese von dis-talen Femurfrakturen [LISS osteosynthesis of distal femoral fractures]. Trauma Berufskrankheiten 1: 392–397
Schandelmaier P et al. (1999) Stabilisation of distal femur fractures using the LISS. Techniques in Orthopaedics 14 (3): 230–246
Schandelmaier P et al. (2000) Distale Femurfrakturen [Distal femoral fractures]. Unfallchirurg 70: 428–436
Schandelmaier P et al. (2001) Internal Fixation of Distal Femur Fractures with the Less Invasive Stabilizing System (LISS). Orthopedics and Traumatology 9: 166–184
Schütz M et al. (2003) Revolution in plate osteosynthesis: new internal fixator systems. Journal of Orthopedic Science 8: 252–258
Less invasive stabilization system (LISS) for LISS and LCP DF Plates Surgical Technique DePuy Synthes 49
MRI Information
Torque, Displacement and Image Artifacts according to ASTM F 2213-06, ASTM F 2052-06e1 and ASTM F2119-07Non-clinical testing of worst case scenario in a 3 T MRI system did not reveal any relevant torque or displacement of the construct for an experimentally measured local spatial gradient of the magnetic field of 3.69 T/m. The largest image artifact extended approximately 169 mm from the construct when scanned using the Gradient Echo (GE). Testing was conducted on a 3 T MRI system.
Radio-Frequency-(RF-)induced heating according to ASTM F2182-11aNon-clinical electromagnetic and thermal testing of worst case scenario lead to peak temperature rise of 9.5 °C with an average temperature rise of 6.6 °C (1.5 T) and a peak temperature rise of 5.9 °C (3 T) under MRI Conditions using RF Coils (whole body averaged specific absorption rate [SAR] of 2 W/kg for 6 minutes [1.5 T] and for 15 minutes [3 T]).
Precautions: The above mentioned test relies on non-clini-cal testing. The actual temperature rise in the patient will depend on a variety of factors beyond the SAR and time of RF application. Thus, it is recommended to pay particular attention to the following points: – It is recommended to thoroughly monitor patients under-
going MR scanning for perceived temperature and/or pain sensations.
– Patients with impaired thermoregulation or temperature sensation should be excluded from MR scanning proce-dures.
– Generally, it is recommended to use a MR system with low field strength in the presence of conductive implants. The employed specific absorption rate (SAR) should be reduced as far as possible.
– Using the ventilation system may further contribute to reduce temperature increase in the body.
Synthes GmbHEimattstrasse 34436 OberdorfSwitzerlandTel: +41 61 965 61 11Fax: +41 61 965 66 00www.depuysynthes.com 0123 ©
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This publication is not intended for distribution in the USA.
All surgical techniques are available as PDF files at www.depuysynthes.com/ifu