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Operative Technique• Anatomical & Universal Volar Plates• Dorsal Plates• Fragment Specific Plates• XXL Anatomical Volar Plates
VariAx Distal Radius Locking Plate System
Hand &
Wri
st
Hand & Wrist
2
This publication sets forth detailed recommended procedures for using Stryker Osteosynthesis devices and instruments.
It offers guidance that you should heed, but, as with any such technical guide, each surgeon must consider the particular needs of each patient and make appropriate adjustments when and as required.
A workshop training is recommended prior to first surgery.
All non-sterile devices must be cleaned and sterilized before use. Follow the instructions provided in our reprocessing guide (L24002000). Multi-component instruments must be disassembled for cleaning. Please refer to the corresponding assembly/disassembly instructions.
See package insert (90-0320, 90-01953) for a complete list of potential adverse effects, contraindications, warnings and precautions. The sur-geon must discuss all relevant risks, including the finite lifetime of the de-vice, with the patient, when necessary.
Warning: Fixation Screws:Stryker Osteosynthesis bone screws are not approved or in-tended for screw attachment or fixation to the posterior elements (pedicles) of the cervical, tho-racic or lumbar spine.
3
Variax Distal Radius Locking Plate System
This operative technique was developed with Richard Rogachefsky, MD.
4
Page
1. Introduction 5
2. Overview 7
Plate Options 7
Screw / Peg Options 7
3. SmartLock Locking Technology Overview 8
4. Operative Technique 10
Anatomical Volar Plate 10
Universal Volar Plate 12
Dorsal Plate 14
Lateral Distal Radius Plate 16
Ordering Information – Plates 17
Ordering Information – Cross Pin Screws 20
Ordering Information – T7 Drive Screws 22
Ordering Information – Instruments 24
Ordering Information – Plate Trials 25
Contents
5
Introduction
The VariAx Distal Radius Plating System represents the Next Generation of Bone Fixation for your Distal Radius Fracture Needs.
Intended Use
The VariAx Distal Radius Locking System incl. the XXL Volar Distal Radius Plates is intended for use in internal fixations of the small bone fractures, primarily including distal radius fractures.
Indications
Compression fractures, intra-articular and extra-articular fractures, displaced fractures. Following additional indications apply only for the XXL Volar Distal Radius Plates: Osteotomies, non-unions and mal-unions.
Contraindications
•Inadequatebonequantityandquality•Patientswithactiveinfections.•Patientswithmetalallergiesand
foreign body sensitivity.•Severelynon-compliantpatientswith
mental or neurological conditions who are unwilling or incapable of following postoperative care instructions.
•Patientswithlimitedbloodsupplyor insufficient quality or quantity of bone.
•Patientswithunstablephysicaland/or mental health conditions.
Precautions
Stryker Osteosynthesis systems have not been evaluated for safety and compatibility in MR environment and have not been tested for heating or migration in the MR environment, unless specified otherwise in the prod-uct labeling or respective operative technique.
-15° +15°
* Baumann A., Zander, N. “Ti6A14V with Anodization Type II: Biological and Biomechanical Effects”, March 2005.
** The SmartLock Technology is patented (US 6, 322, 562; DE 43 43 117) by Professor Dietmar Wolter, Hamburg, Germany.
System Features
•Comprehensive Plating System Providing Anatomical Volar and Dorsal, Universal Volar and Fragment Specific Solutions.
•XXLAnatomicalVolarPlates Extra long volar plates are needed for cases where the metaphyseal comminution extends to the radial shaft, they follow the curvature of the bone as it extends toward the proximal end of the radius. 4 lenghts, right, left, standard and narrow plates are offered.
•FixedAngleDrillGuide Assures placement of screws & pegs in a pre-determined angle.
•PolyaxialDrillGuide Allows locking with an additional angulation of ±15 degrees in any hole on the plate, except the oblong hole in the shaft.
•AnatomicalVolarPlate Encourages articular support with Locking screws & pegs, provides buttressing to the volar lunate facet and stable fixation of radial styloid fragments with two screws.
•Fullrangeof2.0mmto2.7mmLocking and Non-Locking screws & pegs Offering intraoperative solutions for different fracture fixation requirements.
•AnodizationTypeII* Increases the strength of all VariAx Distal Radius Locking Plates and reduces the incidence of tissue adherence.
6
Introduction
T7 Drive and Cross-Pin Screw Head Designs
Both screw head designs allow axial stability, friction fit screw retention, and easy screw pick up from screw rack.
SmartLock** Locking Technology
•Patented SmartLock Locking Technology Encourages “locked” screw to plate interface due to combination of Grade II - Ti Plates and Grade V - Ti Screws & Pegs.
•SmartLock Locking Screws & Pegs Designed with threads on the underside of the screw head, which upon insertion engage the circular “lip” within any hole on the plate, except the oblong hole in the shaft.
•One-step Locking Is achieved by simply inserting a Locking Screw or Peg within the polyaxial locking range of ±15 degrees, without the need for further steps.
* Baumann A., Zander, N. “Ti6A14V with Anodization Type II: Biological and Biomechanical Effects”, March 2005.
** The SmartLock Technology is patented (US 6, 322, 562; DE 43 43 117) by Professor Dietmar Wolter, Hamburg, Germany.
7
Overview
2.7mm Locking
Screw
2.3mmLocking
Screw
Screw/Peg Options
2.0mmSmooth Locking
Peg
2.3mmNon-
LockingScrew
2.7mmNon-
LockingScrew
2.7mmPartialThread
Non-LockingScrew
2.7mmPartial ThreadLocking
Screw
Plate Options
Cross-PinT7 Drive
Locking ScrewLocking Screw
Bone ScrewBone Screw
Note:• LockingandNon-Lockingscrews can be used in any round hole.• Toavoiddisengagementofthe screwdriver blade from the screw during insertion, axial pressure is recommended.
Universal Volar Plates
Dorsal Plates Lateral
DR PlateDorsal Medial
DR PlateLeft
Right
XXL Anatomical Volar Plates
Anatomical Volar Plates
Note: Plates are not scaled to size.
8
SmartLock Locking Technology Overview
15° distal15° lateral
12° proximal
5° proximal
5° proximal
18° distal12° lateral
0°
0°
18° distal12° lateral
15° distal15° lateral
10° proximal
5° proximal
0°
Pre-determined Screw Pattern
• SmartLock Polyaxial Drill Guide (56-01250) Allows for ±15 degrees of custom angulation and may be used for more complex fractures. A lip on the drill sleeve will engage and allow toggling in the hole. The range in which the drill guide toggles will create a 30 degrees cone and every angle in this range will be a locking position. This may allow for the surgeon to aim where the screw/peg should be placed. Also, depending on the placement of the plate, there may be a need to angle a screw/peg out of the fracture line.
• Fixed Angle Drill Guide (56-01255) This drill guide will ensure the same placement of screw options in every case and therefore does not allow the flexibility of choosing an angle. It is designed to fit in the pre-tilted lips within the holes on the plate by simply pressing the drill guide in to the hole.
Note: In order to prevent toggling, this drill guide is designed to fit very tightly into the holes of the plate. When utilizing this instrument follow the same trajectory of the pre-tilted lips to facilitate its placement.
Note: First fully engage the drill guide in the hole and then aim the drill in the desired direction.
9
• Depth Gauges Silver (62-00016); Black (62-00018) A choice of 2 Depth Gauge designs is offered that allows for a reliable screw measurement even when using one handed technique.
Note: Using one of the provided drill guides for screw hole preparation is mandatory. Not using a drill guide may lead to drilling out of specified locking range and severely compromise the locking capabilities.
• 2.3mm Drill Guide/K-Wire Guide (56-01260) The K-Wire guide provides an option to assess potential screw positions by inserting a 1.1mm K-Wire prior to any drilling or screw insertion. By using the same technique, this K-Wire guide offers the same 30 degrees locking cone as the SmartLock Polyaxial Drill Guide. It may also be utilized to provide temporary fixation to smaller fragments, while catching these with adjacent locking screws. The 2.3mm drill guide can be used as an overdrill to lag 2.3mm screws if compression is desired or as a pilot hole for 2.7mm screws if the insertion is hindered. This drill guide can only be used in a fixed angle.
SmartLock Locking Technology Overview
10
Anatomical Volar Plate
2. The FCR tendon is retracted ulnarly and dissection is carried down through the floor of the FCR sheath. This exposes the FCR muscle belly, which may be retracted ulnarly as well.
1. An incision is made approximately 8cm long just radial to the FCR tendon. If more exposure is necessary, the incision can be extended radially at 45 degrees along the wrist flexion creases.
3. The Pronator Quadratus is identified and dissected in its entirety off of the volar surface of the radius as an ulnarly based flap.
4. The insertion of the Brachioradialis may be released.
Operative Technique
5. The fracture is visualized and reduced.
6. The use of external traction, and/or the use of K-Wires for temporary fixation may be helpful. If necessary, bone graft materials may be used as an adjunct to the plate to provide an optimal bone void filler. The use of AP/Lateral fluoroscopy is helpful to determine correct fracture reduction and plate position.
7. Choose the appropriate implant according to patient anatomy and fracture pattern.
8. The plate should be placed slightly below the distal edge of the radius to support the volar articular fracture fragments and also to avoid inserting screws or pegs into the joint.
9. Zebra striped K-Wires and/or Olive K-Wires can be used for temporary fixation while evaluating the placement of the plate.
10. The first pilot hole should be drilled in the oval gliding hole using the appropriate drill guide.
11. Use the depth gauge to determine screw length.
11
Note: If the insertion of the 2.7mm screw is hindered, it is recommended to use the 2.7mm tap (62-27010) or the 2.3mm cortical drill bit (60-23341) to reduce the risk of screw breakage during insertion.
Anatomical Volar Plate
Operative Technique
12. A non-locking screw is placed in the oval gliding hole but not completely tightened to allow adjustment of the plate in distal or proximal directions.
13. After confirmation of the correct positioning of the anatomic volar plate by use of fluoroscopy, tighten the first screw.
14. Once the position of the plate has been determined, it is time to decide which drill guide to use based upon preference and/or fracture pattern.
15. Using the desired drill guide, repeat drilling, measuring and placement of screws/pegs in the distal holes.
16. Place locking or non-locking screws in the proximal end of the plate.
17. Verify proper placement of screws/pegs by use of fluoroscopy to ensure that neither penetrate the joint.
18. Close the incision.
12
Operative Technique
1. An incision is made approximately 8cm long directly over the FCR tendon. If more exposure is necessary, the incision can be extended radially at 45 degrees along the wrist flexion creases.
2. The FCR tendon is retracted ulnarly and dissection is carried down through the floor of the FCR sheath. This exposes the FCR muscle belly, which may be retracted ulnarly as well.
3. The Pronater Quadratus is identified and dissected in its entirety off of the volar surface of the radius as an ulnarly based flap.
4. The insertion of the Brachioradialis may be released.
5. The fracture is visualized.
6. The fracture is reduced. The use of external traction, and/or the use of K-Wires for temporary fixation could be helpful.If necessary, bone graft materials may be used as an adjunct to the plate to provide an optimal bone void filler.
7. The plate should be placed slightly below the distal edge of the distal radius to avoid inserting screws or pegs into the joint. The use of AP/Lat fluoroscopy is helpful to determine correct fracture reduction and plate position.
8. K-Wires can be used for temporary fixation.
9. The first pilot hole should be drilled in the oval gliding hole using the appropriate drill guide.
10. Measure the depth of the hole to determine screw length.
11. The screw is placed in the oval gliding hole but not completely tightened to allow adjustment of the plate in distal or proximal directions.
Universal Volar Plate
13
Operative Technique
12. After confirmation of the correct positioning of the volar plate by use of fluoroscopy, tighten the first screw.
13. Repeat drilling, measuring and placing of screws/pegs in the distal holes of the plate. The position and number of screws applied depends
on the type of fracture.
14. Place the bone or locking screws in the proximal end of the plate.
15. Verify proper placement of screws and pegs by use of fluoroscopy to ensure that neither penetrates the joint.
16. Close the incision.
Universal Volar Plate
14
Operative Technique
1. Longitudinal incision is made just ulnar to Lister’s tubercle at the distal radius region.
2. Dissection is performed down to the extensor retinaculum. The third compartment is opened and the extensor pollicis longus is displaced radially.
3. The second compartment wrist extensors are subperiosteally elevated radially and the fourth compartment is subperiosteally elevated ulnarly. The dorsal interosseous nerve might be cut off for pain reduction.
4. The fracture is reduced. The use of an external traction device and/or K-Wires for temporary fixation may be helpful. If necessary, bone graft materials may be used as an adjunct to the plate to provide an optimal bone void filler.
5. If necessary, adapt the plate for correct anatomical position. Removal of tuberculum listeri might be necessary.
6. The plate should be placed slightly below the distal edge of the distal radius to avoid inserting screws/pegs into the joint. Correct positioning of the plate should be confirmed by use of fluoroscopy. The first pilot hole should be drilled in the oval gliding hole.
Dorsal Plate
7. Measure the depth of the hole to determine screw length.
8. Check the screw length on the measuring scale of the implant module (optional).
9. The screw is placed in the oval gliding hole but not completely tigh-tened to allow adjustment of the plate in a distal or proximal direction.
15
Operative Technique
10. Confirm proper plate positioning by use of fluoroscopy and then tighten the first screw.
11. Repeat drilling, measuring, and placing of screws/pegs into the distal holes of the plate. The position and number of screws applied depends on the type of fracture.
12. Place bone or locking screws in the proximal end of the plate.
13. Confirm correct placement by use of fluoroscopy.
14. Verify proper placement of screws and pegs by use of fluoroscopy to ensure that neither penetrates the joint.
15. Close the incision.
Dorsal Plate
16
Lateral Distal Radius Plate
Operative Technique
1. Incision is made along the radial column.
2. Care must be taken to avoid injury to dorsal sensory branch of the radial nerve.
3. First dorsal compartment is freed from dorsal to volar to allow plate placement.
4. Plate is placed along the radial column.
5. Screws or distal K-Wires can be placed for fixation options.
6. The 3 in 1 K-Wire bender/cutter/inserter is used to place K-Wires distally.
7. It is recommended only one K-Wire be placed distally at a time in order to make proper use of the bender/cutter/inserter instrument.
8. After insertion, the tamp and mallet can be used to further insert the K-Wires.
9. K-Wires and screws can be placed in conjunction for more rigid fixation.
10. The incision is closed.
17
Note:Plate Trials for the determination of size intra-operatively are available on page 16.
Ordering Information – Plates
The Variax Distal Radius Plating System incorporates plate designs originating from the Matrix Distal Radius Plating System developed by Stryker in conjunction with Richard Rogachefsky, MD.
* They can be ordered single sterile-packed by placing a “S” at the end of the Cat. Nr.
AnATOmICAL VOLAR PLATeS* REF Description Length Thickness mm mm
54-25384 Anatomical Volar DR Plate
Narrow, Right 56 2
54-25374 Anatomical Volar DR Plate
Narrow, Left 56 2
54-25386 Anatomical Volar DR Plate
Standard, Right 56 2
54-25376 Anatomical Volar DR Plate
Standard, Left 56 2
54-25385 Anatomical Volar DR Plate
Narrow, Right, Long 76 2
54-25375 Anatomical Volar DR Plate
Narrow, Left, Long 76 2
54-25387 Anatomical Volar DR Plate
Standard, Right, Long 76 2
54-25377 Anatomical Volar DR Plate
Standard, Left, Long 76 2
UnIVeRSAL VOLAR PLATeS* REF Description Length Thickness mm mm
54-25394 Universal Volar DR Plate
Narrow, Short 53 2
54-25396 Universal Volar DR Plate
Standard, Short 53 2
54-25398 Universal Volar DR Plate
Wide, Short 53 2
54-25395 Universal Volar DR Plate
Narrow, Long 73 2
54-25397 Universal Volar DR Plate
Standard, Long 73 2
54-25399 Universal Volar DR Plate
Wide, Long 73 2
54-25391 Universal Volar DR Plate
Narrow, XLong 94 2
54-25392 Universal Volar DR Plate
Standard, XLong 94 2
54-25393 Universal Volar DR Plate
Wide, XLong 94 2
18
Ordering Information – Plates
XXL AnATOmICAL VOLAR PLATeS*
REF Description Length Thickness mm mm
54-25420 2.7mm XXL Volar DR Plate, Stand, LE (15 holes) 189 3
54-25422 2.7mm XXL Volar DR Plate, Stand, RI (15 holes) 189 3
54-25424 2.7mm XXL Volar DR Plate, Stand, LE (11 holes) 145 3
54-25426 2.7mm XXL Volar DR Plate, Stand, RI (11 holes) 145 3
54-25428 2.7mm XXL Volar DR Plate, Stand, LE (8 holes) 100 3
54-25430 2.7mm XXL Volar DR Plate, Stand, RI (8 holes) 100 3
54-25432 2.7mm XXL Volar DR Plate, Stand, LE (5 holes) 74 3
54-25434 2.7mm XXL Volar DR Plate, Stand, RI (5 holes) 74 3
54-25436 2.7mm XXL Volar DR Plate, Narrow, LE (15 holes) 189 3
54-25438 2.7mm XXL Volar DR Plate, Narrow, RI (15 holes) 189 3
54-25440 2.7mm XXL Volar DR Plate, Narrow, LE (11 holes) 145 3
54-25442 2.7mm XXL Volar DR Plate, Narrow, RI (11 holes) 145 3
54-25444 2.7mm XXL Volar DR Plate, Narrow, LE (8 holes) 100 3
54-25446 2.7mm XXL Volar DR Plate, Narrow, RI (8 holes) 100 3
54-25448 2.7mm XXL Volar DR Plate, Narrow, LE (5 holes) 74 3
54-25450 2.7mm XXL Volar DR Plate, Narrow, RI (5 holes) 74 3
Note:Plate Trials for the determination of size intra-operatively are avail-able on page 16.
The Variax Distal Radius Plating System incorporates plate designs originating from the Matrix Distal Radius Plating System developed by Stryker in conjunction with Richard Rogachefsky, MD.
* They can be ordered single sterile-packed by placing a “S” at the end of the Cat. Nr.
19
Note:Plate Trials for the determination of size intra-operatively are avail-able on page 16.
Ordering Information – Plates
* They can be ordered single sterile-packed by placing a “S” at the end of the Cat. Nr.** Formerly labelled as “Radial Column Plate”*** Formerly labelled as “Ulnar Column Plate
FRAgmenT SPeCIFIC PLATeS*
DORSAL PLATeS*
REF Description Length Thickness mm mm
54-25290 Dorsal DR Plate
Standard, Right 60 1.5
54-25291 Dorsal DR Plate
Standard, Left 60 1.5
54-25292 Dorsal DR Plate
Wide, Right 60 1.5
54-25293 Dorsal DR Plate
Wide, Left 60 1.5
54-25294 Dorsal DR Plate
Standard, Right, XLong 81 1.5
54-25295 Dorsal DR Plate
Standard, Left, XLong 81 1.5
54-25296 Universal Volar DR Plate
Wide, Right, XLong 81 1.5
54-25297 Dorsal DR Plate
Wide, Left, Xlong 81 1.5
REF Description Length Thickness mm mm
54-25400 Lateral DR Plate, Short** 44 1
54-25401 Lateral DR Plate, Long** 57 1
54-25402 Dorsal Medial DR Plate, Short, Right*** 40 1
54-25403 Dorsal Medial DR Plate, Short, Left*** 40 1
54-25404 Dorsal Medial DR Plate, Long, Right*** 53 1
54-25405 Dorsal Medial DR Plate, Long, Left*** 53 1
20
Ordering Information – Cross-Pin Screws
Note: They can be ordered single sterile-packed by placing a “S” at the end of the Cat. Nr.All Drills may be ordered sterile by replacing “60” by “91-” in their respective Cat.Nr.
2.7 mm PARTIALLy THReADeD LOCkIng SCReWS
Ti Length REF mm
52-20616 16
52-20618 18
52-20620 20
52-20622 22
52-20624 24
52-20626 26
2.0mm LOCkIng PegS 2.7mm LOCkIng SCReWS
Ti Length REF mm
52-27610 10
52-27612 12
52-27614 14
52-27616 16
52-27618 18
52-27620 20
52-27622 22
52-27624 24
52-27626 26
Ti Length REF mm
52-27716 16
52-27718 18
52-27720 20
52-27722 22
52-27724 24
52-27726 26
For the 2.0mm Locking Pegs, please use the following 2.0mm drill ref: 60-20185, 60-20385 and 60-20485.
2.3mm LOCkIng SCReWS
Ti Length REF mm
52-23610 10
52-23612 12
52-23614 14
52-23616 16
52-23618 18
52-23620 20
52-23622 22
52-23624 24
52-23626 26
52-23628 28
52-23630 30
52-23632 32
52-23634 34
52-23636 36
52-23638 38
For the 2.3mm Locking Screws, please use the following 1.9mm drill ref: 60-19140, 60-19340 and 60-19440.
For the 2.7mm Locking Screws, please use the following 2.0mm drill ref: 60-20185, 60-20385 and 60-20485.
For the 2.7mm Partially Threaded Locking Screws, please use the following 2.0mm drill ref: 60-20185, 60-20385 and 60-20485.
21
Ordering Information – Cross-Pin Screws
Note: They can be ordered single sterile-packed by placing a “S” at the end of the Cat. Nr.All Drills may be ordered sterile by replacing “60” by “91-” in their respective Cat.Nr.
2.3mm nOn-LOCkIng SCReWS 2.7mm PARTIALLy THReADeD nOn-LOCkIng SCReWS
Ti Length REF mm
52-23010 10
52-23012 12
52-23014 14
52-23016 16
52-23018 18
52-23020 20
52-23022 22
52-23024 24
52-23026 26
52-23028 28
52-23030 30
52-23032 32
52-23034 34
52-23036 36
52-23038 38
Ti Length REF mm
52-27116 16
52-27118 18
52-27120 20
52-27122 22
52-27124 24
52-27126 26
For the 2.3mm Screws, please use the following 1.9mm drill ref: 60-19140, 60-19340 and 60-19440.
2.7mm nOn-LOCkIng SCReWS
Ti Length REF mm
52-27010 10
52-27012 12
52-27014 14
52-27016 16
52-27018 18
52-27020 20
52-27022 22
52-27024 24
52-27026 26
For the 2.7mm Screws, please use the following 2.0mm drill ref: 60-20185, 60-20385 and 60-20485.
For the 2.7mm Partially Threaded Screws, please use the following 2.0mm drill ref: 60-20185, 60-20385 and 60-20485.
REF Description
60-23141 2.3mm, Stryker shaft end
60-23341 2.3mm, AO shaft end
60-23441 2.3mm, Dental shaft end
60-20185 2.0mm, Stryker shaft end
60-20385 2.0mm, AO shaft end
60-20485 2.0mm, Dental shaft end
60-19140 1.9mm, Stryker shaft end
60-19340 1.9mm, AO shaft end
60-19440 1.9mm, Dental shaft end
62-27010 Tap for 2.7mm Screws
62-27007 2.3mm/2.7mm, Cross-Pin Blade
TWIST DRILLS, TAP AnD BLADe
22
Ordering Information – T7 Drive Screws
Note: They can be ordered single sterile-packed by replacing “E” by “S” at the end of the Cat. Nr.All Drills may be ordered sterile by replacing “60” by “91-” in their respective Cat.Nr.
Ti Length REF mm
53-20616E 16
53-20618E 18
53-20620E 20
53-20622E 22
53-20624E 24
53-20626E 26
2.0mm LOCkIng PegS 2.7mm LOCkIng SCReWS
Ti Length REF mm
53-27610E 10
53-27612E 12
53-27614E 14
53-27616E 16
53-27618E 18
53-27620E 20
53-27622E 22
53-27624E 24
53-27626E 26
For the 2.0mm Locking Pegs, please use the following 2.0mm drill ref: 60-20185, 60-20385 and 60-20485.
For the 2.7mm Locking Screws, please use the following 2.0mm drill ref: 60-20185, 60-20385 and 60-20485.
2.3mm LOCkIng SCReWS
Ti Length REF mm
53-23610E 10
53-23612E 12
53-23614E 14
53-23616E 16
53-23618E 18
53-23620E 20
53-23622E 22
53-23624E 24
53-23626E 26
53-23628E 28
53-23630E 30
53-23632E 32
53-23634E 34
53-23636E 36
53-23638E 38
For the 2.3mm Locking Screws, please use the following 1.9mm drill ref: 60-19140, 60-19340 and 60-19440.
2.7 mm PARTIALLy THReADeD LOCkIng SCReWS
Ti Length REF mm
53-27716E 16
53-27718E 18
53-27720E 20
53-27722E 22
53-27724E 24
53-27726E 26
For the 2.7mm Partially Threaded Locking Screws, please use the following 2.0mm drill ref: 60-20185, 60-20385 and 60-20485.
23
Ordering Information – T7 Drive Screws
Note: They can be ordered single sterile-packed by replacing “E” by “S” at the end of the Cat. Nr.All Drills may be ordered sterile by replacing “60” by “91-” in their respective Cat.Nr.
2.3mm nOn-LOCkIng SCReWS 2.7mm PARTIALLy THReADeD nOn-LOCkIng SCReWS
REF Description
60-23141 2.3mm, Stryker shaft end
60-23341 2.3mm, AO shaft end
60-23441 2.3mm, Dental shaft end
60-20185 2.0mm, Stryker shaft end
60-20385 2.0mm, AO shaft end
60-20485 2.0mm, Dental shaft end
60-19140 1.9mm, Stryker shaft end
60-19340 1.9mm, AO shaft end
60-19440 1.9mm, Dental shaft end
62-27010 Tap for 2.7mm Screws
62-27015 Screwdriver Blade, T7
TWIST DRILLS, TAP AnD BLADe
Ti Length REF mm
53-23210E 10
53-23212E 12
53-23214E 14
53-23216E 16
53-23218E 18
53-23220E 20
53-23222E 22
53-23224E 24
53-23226E 26
53-23228E 28
53-23230E 30
53-23232E 32
53-23234E 34
53-23236E 36
53-23238E 38
Ti Length REF mm
53-27116E 16
53-27118E 18
53-27120E 20
53-27122E 22
53-27124E 24
53-27126E 26
For the 2.3mm Screws, please use the following 1.9mm drill ref: 60-19140, 60-19340 and 60-19440.
For the 2.7mm Partially Threaded Screws, please use the following 2.0mm drill ref: 60-20185, 60-20385 and 60-20485.
2.7mm nOn-LOCkIng SCReWS
Ti Length REF mm
53-27210E 10
53-27212E 12
53-27214E 14
53-27216E 16
53-27218E 18
53-27220E 20
53-27222E 22
53-27224E 24
53-27226E 26
For the 2.7mm Screws, please use the following 2.0mm drill ref: 60-20185, 60-20385 and 60-20485.
24
Ordering Information – Instruments
InSTRUmenTATIOn
REF Description
07-30600
07-30111
07-10006
07-10021
07-10175
43-09830
64-00011
Lobster Bone Holding Forceps
Lewin Bone Holding Forceps,
Sharp Tip
Elevator, Double sided,
Narrow&Wide, Hohmanns
Elevator, Double sided,
Strong&Light Curved
Bone Hook
Mallet (250g)
Tamp
BOne ReDUCTIOn InSTRUmenTS
29-27001
29-27002
29-27003
29-27004
VariAx Distal Radius
Locking Implant Module,
double-sized
Inlay for Anatomical Volar
Distal Radius Plates
Inlay for Universal Volar
Distal Radius Plates
Inlay for Volar Anatomical
XXL DR Plates
REF Description
ImPLAnT mODULe
29-13012
29-13013
29-13114
29-13024
VariAx Lid for Sterilizing
Container
Sterilizing Container, Half-
size, w/o VariAx Lid
VariAx Distal Radius Plating
Instrument Tray
VariAx Distal Radius Bone
Reduction Tray
REF Description
STeRILIzIng COnTAIneR
56-40281
07-40281
K-Wire with Olive Stop *
K-Wire, 1.1x160mm **
k-WIReSREF Description
* Order Quantity: Packages of 5** Order Quantity: Packages of 10
DePTH gAUgeS
REF Description
62-00018
62-00016
VariAx Distal Radius Depth
Gauge for 2.3/2.7 mm Screws,
black
Depth Measuring Gauge
REF Description
62-20290 Screwdriver Ratcheting Handle
56-01250 Polyaxial Drill Guide
2.3mm/2.7mm
56-01255 Fixed Angle Drill Guide
2.3mm/2.7mm
56-01260 2.3mm Overdrill and K-Wire
Guide
64-20117 Plate Bending Pliers
64-20118 K-Wire Bending Pliers
64-20129 Forceps with Grasping Lips
25
Ordering Information – Plate Trials
REF Description
54-25384T Volar DR Trial, Narrow, Right, Short
54-25374T Volar DR Trial, Narrow, Left, Short
54-25386T Volar DR Trial, Standard, Right, Short
54-25376T Volar DR Trial, Standard, Left, Short
54-25440T
54-25442T
54-25444T
54-25446T
XXL Volar DR Trial,
Narrow, LE (11 holes)
XXL Volar DR Trial,
Narrow, RI (11 holes)
XXL Volar DR Trial,
Narrow, LE (8 holes)
XXL Volar DR Trial,
Narrow, RI (8 holes)
REF Description
AnATOmICAL VOLAR PLATe TRIALS
UnIVeRSAL VOLAR PLATe TRIALS
DORSAL PLATe TRIALS
XXL AnATOmICAL VOLAR PLATe TRIALS
REF Description
54-25394T Volar DR Trial, Narrow, Short
54-25396T Volar DR Trial, Standard, Short
54-25395T Volar DR Trial, Narrow, Long
54-25397T Volar DR Trial, Standard, Long
FRAgmenT SPeCIFIC PLATe TRIALS
REF Description
54-25400T Lateral DR Trial, Short
54-25402T Dorsal Medial DR Trial, Short, Right
54-25403T Dorsal Medial DR Trial, Short, Left
REF Description
54-25290T Dorsal DR Trial, Standard, Right
54-25291T Dorsal DR Trial, Standard, Left
54-25292T Dorsal DR Trial, Wide, Right
54-25293T Dorsal DR Trial, Wide, Left
26
X-RAy TemPLATeS
62-90004
62-90005
62-90002
62-90003
62-90000
62-90001
X-Ray Template XXL Volar DR
Plates (Scale 1:1)
X-Ray Template XXL Volar DR
Plates (Scale 1.15:1)
X-Ray Template Volar DR Plates
(Scale 1.15:1)
X-Ray Template Dorsal DR Plates
(Scale 1.15:1)
X-Ray Template Volar DR Plates
(Scale 1:1)
X-Ray Template Dorsal DR Plates
(Scale 1:1)
REF Description
REF Description
50-23501 Marker - Locking Screws 2.3mm
50-27500 Marker - Locking Screws 2.7mm
50-20501 Marker - Locking Pegs 2.0mm
50-23001 Marker - Bone Screws 2.3mm
50-27000 Marker - Bone Screws 2.7mm
50-27001 Marker - PT Bone Screws 2.7mm
50-27501 Marker - PT Locking Pegs 2.7mm
50-23502 Marker - 2.3mm
mARkeRS
Ordering Information – Plate Trials
27
Complementary Products
Now Stryker Osteosynthesis offers you a wide variety of solutions for the treatment of all your Upper Extremity & Hand Injuries.
TwinFix
knifeLight
Hoffmann II micro Lengthener
Hoffmann II Compact mRI
Profyle and VariAx Hand
T2 Humeral nail
T2 Proximal Humeral nailAsnis III 4.0 Cannulated ScrewsAxSOS Proximal Humeral Plate
This document is intended solely for the use of healthcare professionals. A surgeon must always rely on his or her own professional clinical judgment when deciding whether to use a particular product when treating a particular patient. Stryker does not dispense medical advice and recommends that surgeons be trained in the use of any particular product before using it in surgery.
The information presented is intended to demonstrate a Stryker product. A surgeon must always refer to the package insert, product label and/or instructions for use, including the instructions for Cleaning and Sterilization (if applicable), before using any Stryker product. Products may not be available in all markets because product availability is subject to the regulatory and/or medical practices in individual markets. Please contact your Stryker representative if you have questions about the availability of Stryker products in your area.
Stryker Corporation or its divisions or other corporate affiliated entities own, use or have applied for the following trademarks or service marks: Asnis, AxSOS, Hoffmann II Compact MRI, Hoffmann II Micro, KnifeLight, Profyle Modular, Stryker, TwinFix, T2, VariAx. All other trademarks are trademarks of their respective owners or holders.
The products listed above are CE marked.
Literature Number: 90-07800 Rev 61/11
Copyright © 2011 Stryker
Manufactured by:
Stryker Leibinger GmbH & Co. KGBötzinger Straße 41D-79111 FreiburgGermany
www.osteosynthesis.stryker.com1275
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