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Compact Midface. The systematic solu-tion for craniomaxillofacial indications and displacement osteotomies.
Surgical Technique
This publication is not intended for distribution in the USA.
Instruments and implantsapproved by the AO Foundation.
Image intensifier control
This description is not sufficient for immediate application of the instrument set. 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
Compact Midface Surgical Technique DePuy Synthes 1
Table of Contents
Introduction Compact Midface 2
Features and benefits 4
AO Principles 5
Intended Use, Indications, Contraindications, General 6 Adverse Events, Device Specific Adverse Events, Warnings, Precautions, and MRI Information
Surgical Technique Trauma Repair and Reconstruction 8
Orbital Plates 11
Le Fort I Fixation 13
Product Information Implants 15
Instruments 16
Sets 17
Ordering Information 18
1.0 1.3 1.5 2.0 and 2.0 Lock
2 DePuy Synthes Compact Midface Surgical Technique
Compact Midface is a highly flexible modular system that consists of a variety of surgical instruments and implants for craniomaxillofacial indications. Key features and benefits – Comprehensive solutions based on indications – Large selection of titanium plates and meshplates to
meet the anatomical needs of the patient – Screw diameters in 1.0, 1.3, 1.5 and 2.0 mm available in
self-tapping and self-drilling – 2.0 mm locking screws for midface – Screw clips for quick and easy restocking of screws – All implants available in sterile and non-sterile
Compact MidfaceThe systematic solution for craniomaxillofacial indications and displacement osteotomies.
Introduction
Implant strength
Compact Midface Surgical Technique DePuy Synthes 3
Available as self-drilling and self-tapping with two different recesses: – PlusDrive – Cruciform
System Information
Screws Overview
Screws
PlusDrive Cruciform
Self-drilling Self-tapping Self-tapping
1.0 2 2 2
1.3 2 2 2
1.5 2 2 2
2.0 2 2 2
2.0 LOCK 2 2
Lag screw 2
System Screw diameter (mm) Drill bit diameter (mm) Emergency screw diameter (mm) Plate thickness (mm)
1.0 1.0 0.7*, 0.76* 1.2 0.5
1.3 1.3 1.0 1.7 0.5
1.5 1.5 1.1 2.0 0.6 malleable, 0.9
2.0 2.0 1.5 2.4 0.6 malleable, 0.9
2.0 LOCK 2.0 1.5 2.4 0.6 malleable, 0.9
* Drill bit diameter 0.7 mm for screw lengths: 2–3 mm Drill bit diameter 0.76 mm for screw lengths: 4–8 mm
The well thought out design of color-coded screw clips al-lows the modules to be quickly and easily filled with screws.
Le Fort I osteotomy – Pre-bent maxilla plate 1.5 facitates intraoperative
contouring steps – Advancements from 3–11 mm – Preoperatively determined advancement reliably achieved
L, Y, T, and Z Shaped plates – L, Y and T plates in various versions and dimensions – Z plates in various dimensions with asymmetrical design
for secure fixation of the maxilla at the lateral pillars
4 DePuy Synthes Compact Midface Surgical Technique
Features and benefits
Compact Midface Surgical Technique DePuy Synthes 5
AO Principles
In 1958, the AO formulated four basic principles, which have become the guidelines for internal fixation1,2. They are:
Anatomic reductionFracture reduction and fixation to restore anatomical rela-tionships. A comprehensive implant and instrument selection offers the ability to address most simple and complex fixa-tion needs.
Stable fixationStability by rigid fixation or splintage, as the personality of the fracture and the injury requires. The Compact Midface plates and screws are optimized to achieve stable bone fixa-tion.
Preservation of blood supplyPreservation of the blood supply to soft tissue and bone by careful handling and gentle reduction techniques.
Early, active mobilizationEarly and safe mobilization of the part and patient. The Compact Midface system implants, combined with AO tech-nique, provide stable fixation enough to allow a functional aftercare.
1 Müller ME, Allgöwer M, Schneider R, Willenegger H (1995) Manual of Internal Fixation. 3rd, expanded and completely revised ed. 1991. Berlin, Heidelberg, New York: Springer
2 Rüedi TP, Buckley RE, Moran CG (2007) AO Principles of Fracture Management. 2nd expanded ed. 2002. Stuttgart, New York: Thieme
6 DePuy Synthes Compact Midface Surgical Technique
Intended Use, Indications, Contraindications, General Adverse Events, Device Specific Adverse Events, Warnings, Precautions, and MRI Information
Intended UseThe implants (plates and screws) and their instruments are intended for trauma repair and reconstruction of the cranio-facial skeleton.
IndicationsThe Compact systems are indicated for selective trauma of the midface and craniofacial skeleton, craniofacial surgery, and orthognathic surgery of the midface.
Orbital plates are indicated for trauma repair and reconstruc-tion of the craniofacial skeleton. Specific Indications are: – orbital floor fractures, – medial orbital wall fractures, and – combined orbital floor and medial wall fractures.
ContraindicationsThe systems are contraindicated for use in areas with active or latent infection or insufficient quantity or quality of bone.
General Adverse EventsAs with all major surgical procedures, risks, side effects and adverse events can occur. While many possible reactions may occur, some of the most common include:Problems resulting from anesthesia and patient positioning (e.g. nausea, vomiting, dental injuries, neurological impair-ments, etc.), thrombosis, embolism, infection, nerve and/or tooth root damage or injury of other critical structures in-cluding blood vessels, excessive bleeding, damage to soft tis-sues incl. swelling, abnormal scar formation, functional im-pairment of the musculoskeletal system, pain, discomfort or abnormal sensation due to the presence of the device, al-lergy or hypersensitivity reactions, side effects associated with hardware prominence, loosening, bending, or breakage of the device, mal-union, non-union or delayed union which may lead to breakage of the implant, reoperation.
Device Specific Adverse EventsDevice specific adverse events include but are not limited to: – Loosening, bending, or breakage of the devices – Non-union, mal-union, or delayed union that may lead to
breakage of the implants – Pain, discomfort, or abnormal sensation due to the pres-
ence of the devices – Adverse tissue reaction/soft tissue irritation – Local infection/systemic infection – Damage to vital organs, surrounding structures, and/or
soft tissues – Peripheral nerve damage – Bone damage, bone fracture, and/or bone necrosis – User injury
Warnings: – These devices can break during use (when subjected to
excessive forces or outside the recommended surgical technique).
– While the surgeon must make the final decision on removal of the broken part based on associated risk in do-ing so, we recommend that whenever possible and practi-cal for the patient, the broken part should be removed.
Precaution: Physicians should inform their patients about the implants’ load restrictions and develop a plan for postop-erative behavior and increasing physical loads.
Compact Midface Surgical Technique DePuy Synthes 7
MRI Information
Magnetic Resonance Environment Torque, Displacement and Image Artifacts according to ASTM F 2213-06, ASTM F 2052-06e1 and ASTM F 2119-07 Non-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 5.4 T/m. The largest image artifact extended approximately 20 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 F 2182-11a Non-clinical electromagnetic and thermal simulations of worst case scenario lead to temperature rises of 9.3 °C (1.5 T) and 6 °C (3 T) under MRI Conditions using RF Coils (whole body averaged specific absorption rate [SAR] of 2 W/kg for 15 minutes).
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 an MRI 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.
8 DePuy Synthes Compact Midface Surgical Technique
1Expose and reduce fracture
After completing the preoperative plan, expose the fracture or osteotomy site. In trauma reduce the fracture as required.
2Select and prepare the implant
Select the appropriate plate to the indication. Orient the plate so that the topside is facing out. Cut to length, if necessary.
Precautions: – In order to determine the appropriate amount of screws
needed to achieve stable construct fi xation, the surgeon should consider the fracture size and shape.
– Take care to protect soft tissue from trimmed plate edges. – Instrument tips may be sharp, handle with care and dis-
pose sharp cuttings in an approved sharps container.
Surgical TechniqueTrauma Repair and Reconstruction
Surgical Technique
top side bony side
Compact Midface Surgical Technique DePuy Synthes 9
3Contour the plate
Contour the plate to fit to the patient anatomy using the plate cutter and bending pliers respectively. Ensure the plate is passively adapted to the bone.
Note: An exact match is not required when using locking plates and screws because plate stability is not dependent on plate-to-bone contact when screws are locked.
Precautions: – If contouring is necessary, the surgeon should avoid bend-
ing the device at a screw hole. – Avoid sharp bends, repetitive and reverse bending as it in-
creases the risk of implant breakage. – Take care to protect soft tissue from trimmed edges.
4Position the plate
Place the plate over the fracture or osteotomy site.
Precaution: Confirm that plate positioning, drill bit, and screw length allow for adequate clearance of nerves, tooth buds and/or tooth roots, the edge of the bone, and any other critical structures.
10 DePuy Synthes Compact Midface Surgical Technique
5Pre-drilling and screw insertion
Pre-drilling is recommended in complex fractures of the mid-face and in mandibular regions with thick cortical bone.
If pilot hole is desired, drill the first hole (for appropriate drill bit diameter, see reference chart on page 3) and insert the first screw close to the fracture or osteotomy site, and tighten until secure.
Insert the second screw on the opposite side of the fracture or osteotomy site, and then all remaining screws following the outlined procedure.
If the screw is inserted with angulation, verify that the screw is safely retained in the plate hole and that the construct profile is not significantly increased.
Precautions: – Confirm that drill bit length and diameter correspond to
selected screw length prior to drilling. – Drill speed rate should never exceed 1,800 rpm, particularly
in dense, hard bone. Higher drill speed rates can result in: – thermal necrosis of the bone, – soft tissue burns, – an oversized hole, which can lead to reduced pullout
force, increased ease of the screws stripping in bone, suboptimal fixation, and/or the need for emergency screws.
– Avoid damaging the plate threads with the drill. – Always irrigate during drilling to avoid thermal damage to
the bone and ensure drill bit is concentric to plate hole, irrigation ensures the removal of debris potentially gener-ate during implantation.
– Take care while drilling as to not damage, entrap, or tear a patient’s soft tissue or damage critical structures, nerves or tooth roots.
– In order to determine the appropriate amount of screws needed to achieve stable construct fixation, the surgeon should consider the fracture size and shape.
– Confirm screw length prior to implantation. – Tighten screws in a controlled manner. Applying too
much torque to the screws may cause screw/plate defor-mation or bone stripping. If bone becomes stripped, remove the screw from the bone and replace with an emergency screw.
For Cranial Region Fixation, the following precautions apply:
In order to determine the appropriate amount of fixation for stability, the surgeon should consider the size and shape of the fracture or osteotomy. DePuy Synthes recommends at least three plates when repairing osteotomies. Additional fixation is recommended to ensure stability of large fractures and osteotomies. When using mesh for larger defects, additional screws for fixation are recommended.
Trauma Repair and Reconstruction
Compact Midface Surgical Technique DePuy Synthes 11
1Select plate design
Select the appropriate plate shape and thickness that best suits the bony anatomy and treatment objective.
2Adapt plate to the bone
If required, cut and contour the plate to the patient anatomy using the plate cutter and the bending pliers respectively. En-sure that the plate is placed flush to the bone.
Precautions: – Confirm that plate positioning, drill bit, and screw length
allow for adequate clearance of nerves, the edge of the bone, and any other critical structures.
– Instrument tips may be sharp, handle with care and dis-pose sharp cuttings in an approved sharps container.
– If contouring is necessary, the surgeon should avoid bend-ing the device at a screw hole.
– Avoid sharp bends, repetitive and reverse bending as it increases the risk of implant breakage.
– Avoid contouring of the implant in situ that may lead to implant malposition and/or posterior cantilever effect.
– Take care to protect soft tissue from trimmed edges.
Surgical Technique
Orbital Plates
12 DePuy Synthes Compact Midface Surgical Technique
3Drill the hole
If pilot hole is desired, select the appropriate diameter drill bit length (see reference chart on page 3) to allow for ade-quate clearance of nerves, and critical structure.
Precautions: – Drill speed rate should never exceed 1,800 rpm, particularly
in dense, hard bone. Higher drill speed rates can result in: – thermal necrosis of the bone, – soft tissue burns, – an oversized hole, which can lead to reduced pullout
force, increased ease of the screws stripping in bone, suboptimal fixation, and/or the need for emergency screws.
– Avoid damaging the plate threads with the drill. – Always irrigate during drilling to avoid thermal damage to
the bone. – Always irrigate and apply suction during drilling to ensure
removal of debris potentially generated during implanta-tion.
Note: Self-tapping and self-drilling screws are available (see reference chart on page 3).
4Fixate plate to the bone
Stabilize the implant with screws inserted through selected screw holes in the plate. Insert screws of the appropriate di-ameter and length to secure the plate to the bone.
Precautions: – In order to determine the appropriate amount of screws
needed to achieve stable construct fixation, the surgeon should consider the fracture size and shape.
– Confirm screw length prior to implantation. – Tighten screws in a controlled manner. Applying too
much torque to the screws may cause screw/plate deformation or bone stripping. If bone becomes stripped, remove the screw from the bone and replace with an emergency screw.
Note: Test for impingement: A forced duction test must be completed to ensure unrestricted lateral and medial move-ment of the globe.
Orbital Plates
Compact Midface Surgical Technique DePuy Synthes 13
Surgical Technique
Le Fort I Fixation
1Select plate design After the osteotomy has been performed and the new posi-tion of the maxilla has been established, select the appropri-ate plate shape and thickness that best suits the bony anat-omy, treatment objective, and the quantity and quality of bone.
2Adapt plate to the bone
Cut and contour the plate to the bone using the plate cutter and the bending pliers respectively. Ensure that the plate is placed flush to the bone.
Precautions: – If contouring is necessary, the surgeon should avoid bend-
ing the device at a screw hole. – Avoid sharp bends, repetitive and reverse bending as it
increases the risk of implant breakage. – Take care to protect soft tissue from trimmed edges. – Confirm that plate positioning, drill bit, and screw length
allow for adequate clearance of nerves, tooth buds and/or tooth roots, the edge of the bone, and any other critical structures.
14 DePuy Synthes Compact Midface Surgical Technique
4Fixate plate to the bone
Insert screws of the appropriate diameter and length to fix-ate the plate to the underlying bone.
Precaution: In order to determine the appropriate amount of screws needed to achieve stable construct fixation, the surgeon should consider the fracture size and shape.
3Drill the hole
If pilot hole is desired, select the appropriate diameter drill bit length (see reference chart on page 3) to allow for ade-quate clearance of nerves, tooth buds, tooth roots, and criti-cal structure.
Note: Self-tapping and self-drilling screws are available (see reference chart on page 3).
Precautions: – Drill speed rate should never exceed 1,800 rpm, particularly
in dense, hard bone. Higher drill speed rates can result in: – thermal necrosis of the bone, – soft tissue burns, – an oversized hole, which can lead to reduced pullout
force, increased ease of the screws stripping in bone, suboptimal fixation, and/or the need for emergency screws.
– Avoid damaging the plate threads with the drill. – Always irrigate during drilling to avoid thermal damage to
the bone. – Always irrigate and apply suction during drilling to ensure
removal of debris potentially generated during implanta-tion.
Le Fort I Fixation
Compact Midface Surgical Technique DePuy Synthes 15
malleable
Locking plates
Strut and mesh plates
Orbital floor plates
Midface and cranial plates
Implants
Product Information
Prebent maxilla plates
For more information on the implants, please contact your local representative.
16 DePuy Synthes Compact Midface Surgical Technique
Instruments
Standard instruments for the Compact MidfaceThe standard solution contains the basic set of instruments for craniomaxillofacial surgery. For further informations concerning the burr free plate cutter and the three-prong bending pliers see the corresponding flyers (036.000.087 and 036.000.007)
Individual configuration of instrument trays
In addition to the standard model, indivi dually-adapted in-strument trays can be assembled.
Appropriate and multifunctional inserts are available for the different instruments.
Compact Midface Surgical Technique DePuy Synthes 17
Sets
Size
2/3 3/3
Compact 1.0 Midface 2
Compact 1.3 Midface 2
Compact 1.5 Midface 2
Compact 2.0 Midface 2
Compact 2.0 LOCK Midface 2
Compact 2.0 Combi 2
Overview: Standard modules
Size
1/3
Compact 1.0 Midface 2
Compact 1.3 Midface 2
Compact 1.5 Midface 2
Compact 2.0 Midface 2
Size
3/3
Compact 1.5/2.0 Orthognatics 2
Size
2/3
Compact 1.5/2.0 Orthognatics Plates 2
Compact 1.5/2.0 Orthognatics 2
Screws and Instruments
Compact MidfaceThe color-coded solution with inserts for implants, screws and instruments. The following pre-config-ured systems are available:
Compact Midface sterileThe practical solution for using sterile implants. The module contains rails for snapping in sterile screw clips, and has space for drill bits and screw drivers. The following standard Midface systems are available:
Compact 1.5/2.0 OrthognaticsThe user-friendly module in the standard configu-ration with inserts for instruments, screw clips and implants in the dimensions 1.5/2.0. In addition, it has pockets for storing screws up to 40 mm long for the lag screw technique.
Compact 1.5/2.0 Orthognatics PlatesCompact 1.5/2.0 Orthognatics Screws and InstrumentsTwo modules that belong together when a wide selection of implants and screws is desired. The Screws and Instruments module is also highly suit-able for use with sterile implants.
18 DePuy Synthes Compact Midface Surgical Technique
Compact Midface
Art. No. Article
01.502.204 Compact 1.0 Midface, PlusDrive
01.502.004 Compact 1.0 Midface, Cruciform
01.502.203 Compact 1.0 Midface, PlusDrive, sterile
01.502.003 Compact 1.0 Midface, Cruciform, sterile
01.502.214 Compact 1.3 Midface, PlusDrive
01.502.014 Compact 1.3 Midface, Cruciform
01.502.213 Compact 1.3 Midface, PlusDrive, sterile
01.502.013 Compact 1.3 Midface, Cruciform, sterile
01.502.224 Compact 1.5 Midface, PlusDrive
01.502.024 Compact 1.5 Midface, Cruciform
01.502.223 Compact 1.5 Midface, PlusDrive, sterile
01.502.023 Compact 1.5 Midface, Cruciform, sterile
01.504.214 Compact 2.0 Combi, PlusDrive
01.504.014 Compact 2.0 Combi, Cruciform
01.502.234 Compact 2.0 Midface, PlusDrive
01.502.034 Compact 2.0 Midface, Cruciform
01.504.204 Compact 2.0 LOCK Midface, PlusDrive
01.502.233 Compact 2.0 Midface, PlusDrive, sterile
01.502.033 Compact 2.0 Midface, Cruciform, sterile
Plates
Art. No. Article
04.105.003 Adaption Plate 1.3, 6 holes, Pure Titanium
04.105.004 Adaption Plate 1.3, 8 holes, Pure Titanium
04.105.028 Adaption Plate 1.5, 6 holes, hole spacing 4.5 mm, Pure Titanium
04.105.029 Adaption Plate 1.5, 8 holes, hole spacing 4.5 mm, Pure Titanium
04.105.039 Adaption Plate 1.5, with intersection bars, 4 holes, hole spacing 6.5 mm, Pure Titanium
04.105.040 Adaption Plate 1.5, with intersection bars, 6 holes, hole spacing 6.5 mm, Pure Titanium
04.105.047 Adaption Plate 1.5, with intersection bars, 20 holes, hole spacing 6.5 mm, Pure Titanium
04.105.053 Adaption Plate 2.0, 6 holes, hole spacing 5.0 mm, Pure Titanium
04.105.054 Adaption Plate 2.0, 8 holes, hole spacing 5.0 mm, Pure Titanium
04.105.064 Adaption Plate 2.0, with intersection bars, 4 holes, hole spacing 6.5 mm, Pure Titanium
04.105.065 Adaption Plate 2.0, with intersection bars, 6 holes, hole spacing 6.5 mm, Pure Titanium
04.105.071 Adaption Plate 2.0, with intersection bars, 18 holes, hole spacing 6.5 mm, Pure Titanium
420.010 Strut Plate 1.0, 6 × 30 mm, 2 × 8 holes, thickness 0.5 mm, Pure Titanium
420.020 Strut Plate 1.0, 42 × 38 mm, 10 × 11 holes, thickness 0.4 mm, Pure Titanium
420.040 Strut Plate 1.0, 6 × 42 mm, 2 × 11 holes, thickness 0.5 mm, Pure Titanium
420.060 Strut Plate 1.0, 100 × 100 mm, 26 × 26 holes, thickness 0.4 mm, Pure Titanium
420.070 Screen Plate 1.0, 100 × 100 mm, Pure Titanium
420.100 Adaption Plate 1.0, 34 holes, Pure Titanium
420.210 Orbital Rim Plate 1.0, curved, 11 holes, Pure Titanium
420.302 Orbital Floor Mesh Plate 1.0, thickness 0.2 mm, Pure Titanium
420.303 Orbital Floor Mesh Plate 1.0, thickness 0.3 mm, Pure Titanium
420.304 Orbital Floor Mesh Plate 1.0, thickness 0.4 mm, Pure Titanium
420.401 Anatomic Orbital Floor Plate 1.0, small, Pure Titanium
420.402 Anatomic Orbital Floor Plate 1.0, large, Pure Titanium
420.440 Orbital Floor Plate 1.0, left, Pure Titanium
420.450 Orbital Floor Plate 1.0, right, Pure Titanium
420.540 L-Plate 1.0, left, 9 holes, Pure Titanium
420.550 L-Plate 1.0, right, 9 holes, Pure Titanium
420.620 Y-Plate 1.0, 9 holes, Pure Titanium
420.630 Y-Plate 1.0, 13 holes, Pure Titanium
Ordering Information
Compact Midface Surgical Technique DePuy Synthes 19
420.680 Double Y-Plate 1.0, Pure Titanium
420.700 T-Plate 1.0, 10 holes, Pure Titanium
420.710 T-Plate 1.0, 12 holes, Pure Titanium
420.810 X-Plate 1.0, 5 holes, Pure Titanium
420.840 H-Plate 1.0, 6 holes, Pure Titanium
420.850 H-Plate 1.0, 11 holes, Pure Titanium
421.001 Strut Plate 1.3, 38 × 53 mm, 8 × 11 holes, thickness 0.4 mm, Pure Titanium
421.004 Mesh Plate 1.3, 38 × 45 mm, thickness 0.4 mm, Pure Titanium, blue
421.005 Mesh Plate 1.3, 38 × 45 mm, thickness 0.6 mm, Pure Titanium, gold
421.006 Strut Plate 1.3, 100 × 100 mm, 21 × 21 holes, thickness 0.4 mm, Pure Titanium
421.007 Mesh Plate 1.3, 100 × 100 mm, thickness 0.4 mm, Pure Titanium, blue
421.008 Mesh Plate 1.3, 100 × 100 mm, thickness 0.6 mm, Pure Titanium, gold
421.009 Mesh Plate 1.3, 200 × 200 mm, thickness 0.6 mm, Pure Titanium, gold
421.010 Adaption Plate 1.3, 24 holes, Pure Titanium
421.021 Orbital Rim Plate 1.3, curved, 9 holes, Pure Titanium
421.022 Plate 1.3, straight, 2 holes, Pure Titanium
421.024 Plate 1.3, straight, 4 holes, Pure Titanium
421.040 Universal Orbital Floor Plate 1.3, Pure Titanium
421.044 Orbital Floor Plate 1.3, left, Pure Titanium
421.045 Orbital Floor Plate 1.3, right, Pure Titanium
421.048 Anatomic Orbital Floor Plate 1.3, small, Pure Titanium
421.049 Anatomic Orbital Floor Plate 1.3, large, Pure Titanium
421.050 L-Plate 1.3, left, 6 holes, Pure Titanium
421.051 L-Plate 1.3, right, 6 holes, Pure Titanium
421.052 L-Plate 1.3, left, 7 holes, Pure Titanium
421.053 L-Plate 1.3, right, 7 holes, Pure Titanium
421.061 Y-Plate 1.3, 5 holes, Pure Titanium
421.068 Double Y-Plate 1.3, short, Pure Titanium
421.069 Double Y-Plate 1.3, long, Pure Titanium
421.071 T-Plate 1.3, 7 holes, Pure Titanium
421.080 Strut Plate 1.3, 8 × 43 mm, 2 × 9 holes, thickness 0.5 mm, Pure Titanium
421.081 X-Plate 1.3, 4 holes, Pure Titanium
421.085 H-Plate 1.3, 11 holes, Pure Titanium
421.091 Burr Hole Cover 1.3, for burr holes up to B 17.0 mm, Pure Titanium
421.095 Frame Plate 1.3, rectangular, 4 holes, Pure Titanium
421.096 Frame Plate 1.3, square, 4 holes, Pure Titanium
421.099 Screen Plate 1.3, 100 × 100 mm, Pure Titanium
421.302 Orbital Floor Mesh Plate 1.3, thickness 0.2 mm, Pure Titanium
421.303 Orbital Floor Mesh Plate 1.3, thickness 0.3 mm, Pure Titanium
421.304 Orbital Floor Mesh Plate 1.3, thickness 0.4 mm, Pure Titanium
443.440 Zygomatic DCP 2.0, 4 holes, Pure Titanium
443.450 Zygomatic DCP 2.0, 5 holes, Pure Titanium
443.451 Zygomatic DCP 2.0, with centre space, 4 holes, Pure Titanium
443.460 Zygomatic DCP 2.0, 6 holes, Pure Titanium
446.024 Cranial Plate 1.5, straight, with centre space, 4 holes, length 25 mm, Pure Titanium
446.042 Maxilla Plate 1.5, right, prebent, lengthening 3 mm, Pure Titanium
446.043 Maxilla Plate 1.5, left, prebent, lengthening 3 mm, Pure Titanium
446.044 Maxilla Plate 1.5, right, prebent, lengthening 5 mm, Pure Titanium
446.045 Maxilla Plate 1.5, left, prebent, lengthening 5 mm, Pure Titanium
446.046 Maxilla Plate 1.5, right, prebent, lengthening 7 mm, Pure Titanium
446.047 Maxilla Plate 1.5, left, prebent, lengthening 7 mm, Pure Titanium
446.048 Maxilla Plate 1.5, right, prebent, lengthening 9 mm, Pure Titanium
20 DePuy Synthes Compact Midface Surgical Technique
446.049 Maxilla Plate 1.5, left, prebent, lengthening 9 mm, Pure Titanium
446.060 Maxilla Plate 1.5, right, prebent, lengthening 11 mm, Pure Titanium
446.061 Maxilla Plate 1.5, left, prebent, lengthening 11 mm, Pure Titanium
446.096 Frame Plate 1.5, square, 4 holes, Pure Titanium
446.100 Adaption Plate 1.5, 20 holes, hole spacing 4.5 mm, Pure Titanium
446.101 Adaption Plate 1.5, 20 holes, thickness 0.6 mm, Pure Titanium
446.180 Orbital Rim Plate 1.5, curved, 8 holes, Pure Titanium
446.200 Orbital Rim Plate 1.5, curved, 10 holes, Pure Titanium
446.220 Orbital Rim Plate 1.5, curved, 12 holes, Pure Titanium
446.400 Universal Orbital Floor Plate 1.5, Pure Titanium
446.500 L-Plate 1.5, left, 5 holes, Pure Titanium
446.504 L-Plate 1.5, right, 6 holes, length 22 × 13 mm, Pure Titanium
446.505 L-Plate 1.5, left, 6 holes, length 22 × 13 mm, Pure Titanium
446.506 L-Plate 1.5, right, 6 holes, length 24 × 13 mm, Pure Titanium
446.507 L-Plate 1.5, left, 6 holes, length 24 × 13 mm, Pure Titanium
446.508 L-Plate 1.5, right, 6 holes, length 26 × 13 mm, Pure Titanium
446.509 L-Plate 1.5, left, 6 holes, length 26 × 13 mm, Pure Titanium
446.510 L-Plate 1.5, right, 5 holes, Pure Titanium
446.515 L-Plate 1.5, right, 5 holes, length 22 × 9.0 mm, Pure Titanium, malleable
446.516 L-Plate 1.5, left, 5 holes, length 22 × 9.0 mm, Pure Titanium, malleable
446.520 L-Plate 1.5, left, 7 holes, Pure Titanium
446.527 L-Plate 1.5, left, 7 holes, length 27 × 13 mm, Pure Titanium, malleable
446.530 L-Plate 1.5, right, 7 holes, Pure Titanium
446.537 L-Plate 1.5, right, 7 holes, length 27 × 13 mm, Pure Titanium, malleable
447.180 Orbital Rim Plate 2.0, curved, 8 holes, Pure Titanium
447.200 Orbital Rim Plate 2.0, curved, 10 holes, Pure Titanium
447.220 Orbital Rim Plate 2.0, curved, 12 holes, Pure Titanium
447.222 LOCK Plate 2.0, straight, 4 holes, length 20 mm, Pure Titanium
447.223 LOCK Plate 2.0, straight, 6 holes, length 30 mm, Pure Titanium
447.224 LOCK Plate 2.0, small, with centre space, 4 holes, length 28 mm, Pure Titanium
447.225 LOCK Plate 2.0, small, with centre space, 6 holes, length 40 mm, Pure Titanium
447.226 LOCK L-Plate 2.0, right, 7 holes, Pure Titanium
447.227 LOCK L-Plate 2.0, left, 7 holes, Pure Titanium
447.252 LOCK Plate 2.0, straight, with centre space, 2 holes, length 15 mm, Pure Titanium
447.253 LOCK Zygomatic Plate 2.0, straight, with centre space, 4 holes, Pure Titanium
447.254 LOCK Zygomatic Plate 2.0, straight, 4 holes, Pure Titanium
447.255 LOCK Zygomatic Plate 2.0, straight, 5 holes, Pure Titanium
447.256 LOCK Zygomatic Plate 2.0, straight, 6 holes, Pure Titanium
447.257 LOCK Plate 2.0, small, 20 holes, Pure Titanium
447.258 LOCK Orbital Rim Plate 2.0, curved, 8 holes, Pure Titanium
447.260 LOCK Orbital Rim Plate 2.0, curved, 10 holes, Pure Titanium
447.262 LOCK Orbital Rim Plate 2.0, curved, 12 holes, Pure Titanium
447.264 LOCK L-Plate 2.0, right, 5 holes, Pure Titanium
447.265 LOCK L-Plate 2.0, left, 5 holes, Pure Titanium
Ordering Information
Compact Midface Surgical Technique DePuy Synthes 21
447.266 LOCK L-Plate 2.0, right, 10 holes, Pure Titanium
447.267 LOCK L-Plate 2.0, left, 10 holes, Pure Titanium
447.268 LOCK Y-Plate 2.0, 5 holes, Pure Titanium
447.269 LOCK Y-Plate 2.0, 8 holes, Pure Titanium
447.271 LOCK Double-Y-Plate 2.0, 8 holes, Pure Titanium
447.272 LOCK T-Plate 2.0, 6 holes, Pure Titanium
447.273 LOCK X-Plate 2.0, 4 holes, Pure Titanium
447.275 LOCK H-Plate 2.0, 9 holes, Pure Titanium
447.276 LOCK T-Plate 2.0, 11 holes, Pure Titanium
447.380 Adaption Plate 2.0, with intersection bars, 30 holes, hole spacing 6.5 mm, Pure Titanium
447.500 L-Plate 2.0, left, 5 holes, Pure Titanium
447.510 L-Plate 2.0, right, 5 holes, Pure Titanium
447.515 L-Plate 2.0, right, 5 holes, length 25 × 10 mm, Pure Titanium, malleable
447.516 L-Plate 2.0, left, 5 holes, length 25 × 10 mm, Pure Titanium, malleable
447.520 L-Plate 2.0, left, 7 holes, Pure Titanium
447.527 L-Plate 2.0, left, 7 holes, length 31 × 15 mm, Pure Titanium, malleable
447.530 L-Plate 2.0, right, 7 holes, Pure Titanium
447.537 L-Plate 2.0, right, 7 holes, length 31 × 15 mm, Pure Titanium, malleable
447.540 L-Plate 2.0, left, 10 holes, Pure Titanium
447.548 L-Plate 2.0, long, right, 4 holes, Pure Titanium, malleable
447.549 L-Plate 2.0, long, left, 4 holes, Pure Titanium, malleable
447.550 L-Plate 2.0, right, 10 holes, Pure Titanium
447.557 L-Plate 2.0, left, 4 holes, length 18 × 11 mm, Pure Titanium
447.562 Z-Plate 2.0, right, 4 holes, length 21 × 17 mm, Pure Titanium
447.563 Z-Plate 2.0, left, 4 holes, length 21 × 17 mm, Pure Titanium
447.564 Z-Plate 2.0, right, 4 holes, length 25 × 17 mm, Pure Titanium
447.565 Z-Plate 2.0, left, 4 holes, length 25 × 17 mm, Pure Titanium
447.572 Z-Plate 2.0, short, right, 4 holes, Pure Titanium, malleable
447.573 Z-Plate 2.0, short, left, 4 holes, Pure Titanium, malleable
447.574 Z-Plate 2.0, long, right, 4 holes, Pure Titanium, malleable
447.575 Z-Plate 2.0, long, left, 4 holes, Pure Titanium, malleable
447.610 Y-Plate 2.0, 5 holes, Pure Titanium
447.620 Y-Plate 2.0, 8 holes, Pure Titanium
447.680 Double Y-Plate 2.0, 8 holes, Pure Titanium
447.810 X-Plate 2.0, 4 holes, Pure Titanium
447.850 H-Plate 2.0, 9 holes, Pure Titanium
447.860 H-Plate 2.0, 8 holes, Pure Titanium
450.101 Adaption Plate 1.5, 20 holes, thickness 0.6 mm, Pure Titanium, malleable
450.611 Y-Plate 1.5, 5 holes, thickness 0.6 mm, Pure Titanium, malleable
Compact Instruments
Art. No. Article
01.502.174 Standard Instruments Compact Midface
61.503.703 Additional Instrument Tray Compact 1.0 – 2.4, 3/3, with Lid, without Inserts
61.503.703.01 Insert, 1/3, Insert for Handles, Drill Sleeves, and Holding Instruments, Compact Midface, without Contents
61.503.703.02 Insert, 1/3, for Bending/Cutting Pliers, Compact Midface, without Contents
61.503.703.03 Insert, 1/3, for Instruments Nos. 391.972 and 391.952, Compact Midface, without Contents
61.503.703.04 Tray, 1/3, neutral, for Instruments, Compact Midface, without Contents
22 DePuy Synthes Compact Midface Surgical Technique
Screws:Cortex Screw PlusDrive™ B 1.0 mm, self-tapping
Art. No. Article
400.402 Cortex Screw B 1.0 mm, self-tapping, length 2 mm
400.403 Cortex Screw B 1.0 mm, self-tapping, length 3 mm
400.405 Cortex Screw B 1.0 mm, self-tapping, length 5 mm
400.414 Cortex Screw B 1.0 mm, self-tapping, length 14 mm
Cortex Screw PlusDrive™ B 1.0 mm, self-drilling, Titanium Alloy (TAN)
400.422 Cortex Screw B 1.0 mm, self-drilling, length 2 mm
400.423 Cortex Screw B 1.0 mm, self-drilling, length 3 mm
Cortex Screw PlusDrive™ B 1.3 mm, self-tapping
Art. No. Article
400.433 Cortex Screw B 1.3 mm, self-tapping, length 3 mm
400.435 Cortex Screw B 1.3 mm, self-tapping, length 5 mm
400.444 Cortex Screw B 1.3 mm, self-tapping, length 14 mm
400.446 Cortex Screw B 1.3 mm, self-tapping, length 16 mm
400.448 Cortex Screw B 1.3 mm, self-tapping, length 18 mm
Cortex Screw PlusDrive™ B 1.3 mm, self-drilling, Titanium Alloy (TAN)
400.454 Cortex Screw B 1.3 mm, self-drilling, length 4 mm
400.455 Cortex Screw B 1.3 mm, self-drilling, length 5 mm
400.456 Cortex Screw B 1.3 mm, self-drilling, length 6 mm
Cortex Screw PlusDrive™ B 1.5 mm, self-tapping, Titanium Alloy (TAN)
Art. No. Article
400.035 Cortex Screw B 1.5 mm, self-tapping, length 5 mm
400.044 Cortex Screw B 1.5 mm, self-tapping, length 14 mm
400.046 Cortex Screw B 1.5 mm, self-tapping, length 16 mm
400.048 Cortex Screw B 1.5 mm, self-tapping, length 18 mm
Cortex Screw PlusDrive™ B 1.5 mm, self-drilling, Titanium Alloy (TAN)
Art. No. Article
400.054 Cortex Screw B 1.5 mm, self-drilling, length 4 mm
400.055 Cortex Screw B 1.5 mm, self-drilling, length 5 mm
400.056 Cortex Screw B 1.5 mm, self-drilling, length 6 mm
400.058 Cortex Screw B 1.5 mm, self-drilling, length 8 mm
Cortex Screw PlusDrive™ B 2.0 mm, self-tapping
Art. No. Article
401.041 Cortex Screw PlusDrive B 2.0 mm, length 4 mm
401.042 Cortex Screw PlusDrive B 2.0 mm, length 5 mm
401.043 Cortex Screw PlusDrive B 2.0 mm, length 6 mm
401.044 Cortex Screw PlusDrive B 2.0 mm, length 8 mm
401.045 Cortex Screw PlusDrive B 2.0 mm, length 10 mm
401.046 Cortex Screw PlusDrive B 2.0 mm, length 12 mm
Ordering Information
Compact Midface Surgical Technique DePuy Synthes 23
Cortex Screw PlusDrive™ B 2.0 mm, self-drilling, Titanium Alloy (TAN)
Art. No. Article
401.061 Cortex Screw PlusDrive B 2.0 mm, length 4 mm
401.062 Cortex Screw PlusDrive B 2.0 mm, length 5 mm
401.063 Cortex Screw PlusDrive B 2.0 mm, length 6 mm
401.064 Cortex Screw PlusDrive B 2.0 mm, length 7 mm
401.065 Cortex Screw PlusDrive B 2.0 mm, length 8 mm
MF Cortex Screw B 1.0 mm, self-tapping
Art. No. Article
400.502 MF Cortex Screw B 1.0 mm, self-tapping, length 2 mm
400.503 MF Cortex Screw B 1.0 mm, self-tapping, length 3 mm
400.504 MF Cortex Screw B 1.0 mm, self-tapping, length 4 mm
400.505 MF Cortex Screw B 1.0 mm, self-tapping, length 5 mm
400.506 MF Cortex Screw B 1.0 mm, self-tapping, length 6 mm
400.507 MF Cortex Screw B 1.0 mm, self-tapping, length 7 mm
400.508 MF Cortex Screw B 1.0 mm, self-tapping, length 8 mm
MF Cortex Screw B 1.3 mm, self-tapping
Art. No. Article
400.233 MF Cortex Screw B 1.3 mm, self-tapping, length 3 mm
400.234 MF Cortex Screw B 1.3 mm, self-tapping, length 4 mm
400.235 MF Cortex Screw B 1.3 mm, self-tapping, length 5 mm
400.236 MF Cortex Screw B 1.3 mm, self-tapping, length 6 mm
400.238 MF Cortex Screw B 1.3 mm, self-tapping, length 8 mm
MF Cortex Screw B 1.5 mm, self-tapping
Art. No. Article
400.704 MF Cortex Screw B 1.5 mm, self-tapping, length 4 mm
400.706 MF Cortex Screw B 1.5 mm, self-tapping, length 6 mm
400.707 MF Cortex Screw B 1.5 mm, self-tapping, length 7 mm
400.708 MF Cortex Screw B 1.5 mm, self-tapping, length 8 mm
400.709 MF Cortex Screw B 1.5 mm, self-tapping, length 9 mm
400.710 MF Cortex Screw B 1.5 mm, self-tapping, length 10 mm
400.711 MF Cortex Screw B 1.5 mm, self-tapping, length 11 mm
400.712 MF Cortex Screw B 1.5 mm, self-tapping, length 12 mm
400.714 MF Cortex Screw B 1.5 mm, self-tapping, length 14 mm
400.716 MF Cortex Screw B 1.5 mm, self-tapping, length 16 mm
400.718 MF Cortex Screw B 1.5 mm, self-tapping, length 18 mm
400.720 MF Cortex Screw B 1.5 mm, self-tapping, length 20 mm
MF Cortex Screw B 2.0 mm, self-tapping
Art. No. Article
401.104 MF Cortex Screw B 2.0 mm, self-tapping, length 4 mm
401.106 MF Cortex Screw B 2.0 mm, self-tapping, length 6 mm
401.108 MF Cortex Screw B 2.0 mm, self-tapping, length 8 mm
401.110 MF Cortex Screw B 2.0 mm, self-tapping, length 10 mm
401.112 MF Cortex Screw B 2.0 mm, self-tapping, length 12 mm
24 DePuy Synthes Compact Midface Surgical Technique
Ordering Information
Emergency Screws: Emergency Screw PlusDrive™ B 1.2 mm, self-tapping
Art. No. Article
400.462 Emergency Screw B 1.2 mm, self-tapping, length 2 mm
400.463 Emergency Screw B 1.2 mm, self-tapping, length 3 mm
400.465 Emergency Screw B 1.2 mm, self-tapping, length 5 mm
400.474 Emergency Screw B 1.2 mm, self-tapping, length 14 mm
400.483 Emergency Screw B 1.7 mm, self-tapping, length 3 mm
400.485 Emergency Screw B 1.7 mm, self-tapping, length 5 mm
400.494 Emergency Screw B 1.7 mm, self-tapping, length 14 mm
400.496 Emergency Screw B 1.7 mm, self-tapping, length 16 mm
400.498 Emergency Screw B 1.7 mm, self-tapping, length 18 mm
400.284 Emergency Screw B 2.0 mm, self-tapping, length 14 mm
400.286 Emergency Screw B 2.0 mm, self-tapping, length 16 mm
400.288 Emergency Screw B 2.0 mm, self-tapping, length 18 mm
Emergency Screw PlusDrive™ B 2.4 mm, self-tapping
Art. No. Article
401.791 Emergency Screw PlusDrive B 2.4 mm, length 5 mm
401.792 Emergency Screw PlusDrive B 2.4 mm, length 6 mm
401.794 Emergency Screw PlusDrive B 2.4 mm, length 8 mm
401.795 Emergency Screw PlusDrive B 2.4 mm, length 10 mm
401.796 Emergency Screw PlusDrive B 2.4 mm, length 12 mm
401.797 Emergency Screw PlusDrive B 2.4 mm, length 14 mm
401.798 Emergency Screw PlusDrive B 2.4 mm, length 16 mm
401.799 Emergency Screw PlusDrive B 2.4 mm, length 18 mm
Emergency Screw Cruciform Recess B 1.2 mm, self-tapping
Art. No. Article
400.602 Emergency Screw B 1.2 mm, self-tapping, length 2 mm
400.603 Emergency Screw B 1.2 mm, self-tapping, length 3 mm
400.604 Emergency Screw B 1.2 mm, self-tapping, length 4 mm
400.605 Emergency Screw B 1.2 mm, self-tapping, length 5 mm
400.606 Emergency Screw B 1.2 mm, self-tapping, length 6 mm
400.607 Emergency Screw B 1.2 mm, self-tapping, length 7 mm
400.608 Emergency Screw B 1.2 mm, self-tapping, length 8 mm
Emergency Screw Cruciform Recess B 1.7 mm, self-tapping
Art. No. Article
400.883 Emergency Screw B 1.7 mm, self-tapping, length 3 mm
400.884 Emergency Screw B 1.7 mm, self-tapping, length 4 mm
400.885 Emergency Screw B 1.7 mm, self-tapping, length 5 mm
400.886 Emergency Screw B 1.7 mm, self-tapping, length 6 mm
400.888 Emergency Screw B 1.7 mm, self-tapping, length 8 mm
Compact Midface Surgical Technique DePuy Synthes 25
Emergency Screw B 2.4 mm, self-tapping
Art. No. Article
401.306 Emergency Screw B 2.4 mm, self-tapping, length 6 mm
401.308 Emergency Screw B 2.4 mm, self-tapping, length 8 mm
LOCK Screw PlusDrive™ B 2.0 mm, self-tapping
Art. No. Article
401.291 LOCK Screw PlusDrive B 2.0 mm, self-tapping, length 5 mm, Titanium Alloy (TAN)
401.292 LOCK Screw PlusDrive B 2.0 mm, self-tapping, length 6 mm, Titanium Alloy (TAN)
401.294 LOCK Screw PlusDrive B 2.0 mm, self-tapping, length 8 mm, Titanium Alloy (TAN)
401.295 LOCK Screw PlusDrive B 2.0 mm, self-tapping, length 10 mm, Titanium Alloy (TAN)
401.296 LOCK Screw PlusDrive B 2.0 mm, self-tapping, length 12 mm, Titanium Alloy (TAN)
401.297 LOCK Screw PlusDrive B 2.0 mm, self-tapping, length 14 mm, Titanium Alloy (TAN)
401.298 LOCK Screw PlusDrive B 2.0 mm, self-tapping, length 16 mm, Titanium Alloy (TAN)
401.299 LOCK Screw PlusDrive B 2.0 mm, self-tapping, length 18 mm, Titanium Alloy (TAN)
LOCK Screw PlusDrive™ B 2.0 mm, self-drilling
Art. No. Article
401.955 LOCK Screw PlusDrive B 2.0 mm, self-drilling, length 5 mm
401.956 LOCK Screw PlusDrive B 2.0 mm, self-drilling, length 6 mm
401.957 LOCK Screw PlusDrive B 2.0 mm, self-drilling, length 8 mm
Ordering Information* Screws Plates
Packs of 1 unit xxx.xxx xxx.xxx
Packs of 1 unit with clip xxx.xxx.01C n/a
Packs of 4 units with clip xxx.xxx.04C n/a
Packs of 1 unit, sterile n/a xxx.xxxS
Packs of 1 unit with clip, sterile xxx.xxxS n/a
Packs of 4 units with clip, sterile xxx.xxx.04S n/a
* Not all packaging variatons are available for all items.
Synthes GmbHEimattstrasse 34436 OberdorfSwitzerlandTel: +41 61 965 61 11Fax: +41 61 965 66 00www.depuysynthes.com 0123
Not all products are currently available in all markets.
This publication is not intended for distribution in the USA.
All surgical techniques are available as PDF files at www.depuysynthes.com/ifu ©
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